Started by upstream project "ESP_UndefinedOcsm" build number 112 originally caused by: Started by an SCM change Running as SYSTEM [EnvInject] - Loading node environment variables. Building remotely on reynolds in workspace /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64 [WS-CLEANUP] Deleting project workspace... [WS-CLEANUP] Done Cleaning up /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/include/LINUX64 Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/EGADS_dot/src/circle1_dot Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/EGADS_dot/src/circle2_dot Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/EGADS_dot/src/naca_dot Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/EGADS_dot/src/ruled_naca_dot Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/UDP_UDF/data/tire Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/UDP_UDF/data/tire.o Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/UDP_UDF/data/tire.so Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/UDP_UDF/data/udpTire.o Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/Tutorial/egads2tri Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/Tutorial/egads2tri.o Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/Tutorial/tire Deleting /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/Tutorial/tire.o Updating svn+ssh://acdl.mit.edu/home/svnroot/EGADS at revision '2024-04-13T01:37:08.934 -0400' Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ U trunk/src/egadsIO.cpp U trunk/src/egadsCopy.cpp U trunk/src/fgadsTopo.c U trunk/src/egadsSBO.c U trunk/docs/EGADS_ref/egads.pdf U trunk/docs/EGADS_ref/egads.tex U trunk/include/egads.h U trunk/config/linREADME.txt U trunk/config/macREADME.txt U trunk/config/setup.cmd U trunk/config/setup.command U trunk/config/setup.sh U trunk/config/winREADME.txt U trunk/util/uvmap/uvmap_gen_uv.c U trunk/util/uvmap/uvmap_bnd_adj.c U trunk/util/uvmap/uvmap_bnd_adj.h At revision 2035 Cleaning up /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM at revision '2024-04-13T01:37:08.934 -0400' Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ A trunk/data/basic/boolTest1a.csm A trunk/data/basic/boolTest1b.csm A trunk/data/basic/boolTest1c.csm A trunk/data/basic/boolTest1d.csm A trunk/data/basic/boolTest1e.csm A trunk/data/basic/boolTest1f.csm A trunk/data/basic/boolTest2a.csm A trunk/data/basic/boolTest2b.csm A trunk/data/basic/boolTest2c.csm A trunk/data/basic/boolTest2d.csm A trunk/data/basic/boolTest2e.csm A trunk/data/basic/boolTest2f.csm A trunk/data/basic/boolTest2g.csm A trunk/data/basic/boolTest2h.csm A trunk/data/basic/boolTest2i.csm A trunk/data/basic/boolTest2j.csm A trunk/data/basic/boolTest3a.csm A trunk/data/basic/boolTest3b.csm A trunk/data/basic/boolTest4a.csm A trunk/data/basic/boolTest4b.csm U trunk/data/basic/scribe11x.csm U trunk/data/basic/scribe11y.csm U trunk/data/basic/scribe11z.csm U trunk/data/basic/subtract6d.csm U trunk/data/basic/subtract6e.csm A trunk/data/basic/verify_7.6.0/boolTest1a.vfy A trunk/data/basic/verify_7.6.0/boolTest1b.vfy A trunk/data/basic/verify_7.6.0/boolTest1c.vfy A trunk/data/basic/verify_7.6.0/boolTest1d.vfy A trunk/data/basic/verify_7.6.0/boolTest1e.vfy A trunk/data/basic/verify_7.6.0/boolTest1f.vfy A trunk/data/basic/verify_7.6.0/boolTest2a.vfy A trunk/data/basic/verify_7.6.0/boolTest2b.vfy A trunk/data/basic/verify_7.6.0/boolTest2c.vfy A trunk/data/basic/verify_7.6.0/boolTest2d.vfy A trunk/data/basic/verify_7.6.0/boolTest2e.vfy A trunk/data/basic/verify_7.6.0/boolTest2f.vfy A trunk/data/basic/verify_7.6.0/boolTest2g.vfy A trunk/data/basic/verify_7.6.0/boolTest2h.vfy A trunk/data/basic/verify_7.6.0/boolTest2i.vfy A trunk/data/basic/verify_7.6.0/boolTest2j.vfy A trunk/data/basic/verify_7.6.0/boolTest3a.vfy A trunk/data/basic/verify_7.6.0/boolTest3b.vfy A trunk/data/basic/verify_7.6.0/boolTest4a.vfy A trunk/data/basic/verify_7.6.0/boolTest4b.vfy A trunk/data/basic/verify_7.6.0/plateHoles1.vfy A trunk/data/basic/verify_7.6.0/plateHoles2.vfy U trunk/data/basic/verify_7.6.0/scribe11x.vfy U trunk/data/basic/verify_7.6.0/scribe11y.vfy U trunk/data/basic/verify_7.6.0/scribe11z.vfy A trunk/data/basic/verify_7.6.0/scribe12a.vfy A trunk/data/basic/verify_7.6.0/scribe12b.vfy U trunk/data/basic/verify_7.6.0/subtract6b.vfy U trunk/data/basic/verify_7.6.0/subtract6c.vfy A trunk/data/basic/verify_7.7.0/boolTest1a.vfy A trunk/data/basic/verify_7.7.0/boolTest1b.vfy A trunk/data/basic/verify_7.7.0/boolTest1c.vfy A trunk/data/basic/verify_7.7.0/boolTest1d.vfy A trunk/data/basic/verify_7.7.0/boolTest1e.vfy A trunk/data/basic/verify_7.7.0/boolTest1f.vfy A trunk/data/basic/verify_7.7.0/boolTest2a.vfy A trunk/data/basic/verify_7.7.0/boolTest2b.vfy A trunk/data/basic/verify_7.7.0/boolTest2c.vfy A trunk/data/basic/verify_7.7.0/boolTest2d.vfy A trunk/data/basic/verify_7.7.0/boolTest2e.vfy A trunk/data/basic/verify_7.7.0/boolTest2f.vfy A trunk/data/basic/verify_7.7.0/boolTest2g.vfy A trunk/data/basic/verify_7.7.0/boolTest2h.vfy A trunk/data/basic/verify_7.7.0/boolTest2i.vfy A trunk/data/basic/verify_7.7.0/boolTest2j.vfy A trunk/data/basic/verify_7.7.0/boolTest3a.vfy A trunk/data/basic/verify_7.7.0/boolTest3b.vfy A trunk/data/basic/verify_7.7.0/boolTest4a.vfy A trunk/data/basic/verify_7.7.0/boolTest4b.vfy A trunk/data/basic/verify_7.7.0/plateHoles1.vfy A trunk/data/basic/verify_7.7.0/plateHoles2.vfy U trunk/data/basic/verify_7.7.0/scribe11x.vfy U trunk/data/basic/verify_7.7.0/scribe11y.vfy U trunk/data/basic/verify_7.7.0/scribe11z.vfy A trunk/data/basic/verify_7.7.0/scribe12a.vfy A trunk/data/basic/verify_7.7.0/scribe12b.vfy U trunk/data/basic/verify_7.7.0/subtract6b.vfy U trunk/data/basic/verify_7.7.0/subtract6c.vfy A trunk/data/basic/verify_7.8.0/boolTest1a.vfy A trunk/data/basic/verify_7.8.0/boolTest1b.vfy A trunk/data/basic/verify_7.8.0/boolTest1c.vfy A trunk/data/basic/verify_7.8.0/boolTest1d.vfy A trunk/data/basic/verify_7.8.0/boolTest1e.vfy A trunk/data/basic/verify_7.8.0/boolTest1f.vfy A trunk/data/basic/verify_7.8.0/boolTest2a.vfy A trunk/data/basic/verify_7.8.0/boolTest2b.vfy A trunk/data/basic/verify_7.8.0/boolTest2c.vfy A trunk/data/basic/verify_7.8.0/boolTest2d.vfy A trunk/data/basic/verify_7.8.0/boolTest2e.vfy A trunk/data/basic/verify_7.8.0/boolTest2f.vfy A trunk/data/basic/verify_7.8.0/boolTest2g.vfy A trunk/data/basic/verify_7.8.0/boolTest2h.vfy A trunk/data/basic/verify_7.8.0/boolTest2i.vfy A trunk/data/basic/verify_7.8.0/boolTest2j.vfy A trunk/data/basic/verify_7.8.0/boolTest3a.vfy A trunk/data/basic/verify_7.8.0/boolTest3b.vfy A trunk/data/basic/verify_7.8.0/boolTest4a.vfy A trunk/data/basic/verify_7.8.0/boolTest4b.vfy A trunk/data/basic/verify_7.8.0/plateHoles1.vfy A trunk/data/basic/verify_7.8.0/plateHoles2.vfy U trunk/data/basic/verify_7.8.0/scribe11x.vfy U trunk/data/basic/verify_7.8.0/scribe11y.vfy U trunk/data/basic/verify_7.8.0/scribe11z.vfy A trunk/data/basic/verify_7.8.0/scribe12a.vfy A trunk/data/basic/verify_7.8.0/scribe12b.vfy U trunk/data/basic/verify_7.8.0/subtract6b.vfy U trunk/data/basic/verify_7.8.0/subtract6c.vfy U trunk/data/basic/bentWaffle.csm A trunk/data/Slugs A trunk/data/Slugs/verify_7.8.0 A trunk/data/Slugs/verify_7.8.0/blend12_1.vfy A trunk/data/Slugs/verify_7.8.0/blindeye_1.vfy A trunk/data/Slugs/verify_7.8.0/boxBall_1.vfy A trunk/data/Slugs/verify_7.8.0/boxHole_1.vfy A trunk/data/Slugs/verify_7.8.0/box_1.vfy A trunk/data/Slugs/verify_7.8.0/cylinderHole_1.vfy A trunk/data/Slugs/verify_7.8.0/cylinder_1.vfy A trunk/data/Slugs/verify_7.8.0/damaged_2.vfy A trunk/data/Slugs/verify_7.8.0/demo1_1.vfy A trunk/data/Slugs/verify_7.8.0/duct_1.vfy A trunk/data/Slugs/verify_7.8.0/eyeball_1.vfy A trunk/data/Slugs/verify_7.8.0/holes_1.vfy A trunk/data/Slugs/verify_7.8.0/pieslice_1.vfy A trunk/data/Slugs/verify_7.8.0/sphere_1.vfy A trunk/data/Slugs/verify_7.8.0/torus_1.vfy A trunk/data/Slugs/verify_7.8.0/tutorial1.vfy A trunk/data/Slugs/verify_7.8.0/wing_1.vfy AU trunk/data/Slugs/damaged_1.stl A trunk/data/Slugs/verify_7.7.0 A trunk/data/Slugs/verify_7.7.0/blend12_1.vfy A trunk/data/Slugs/verify_7.7.0/blindeye_1.vfy A trunk/data/Slugs/verify_7.7.0/boxBall_1.vfy A trunk/data/Slugs/verify_7.7.0/boxHole_1.vfy A trunk/data/Slugs/verify_7.7.0/box_1.vfy A trunk/data/Slugs/verify_7.7.0/cylinderHole_1.vfy A trunk/data/Slugs/verify_7.7.0/cylinder_1.vfy A trunk/data/Slugs/verify_7.7.0/damaged_2.vfy A trunk/data/Slugs/verify_7.7.0/demo1_1.vfy A trunk/data/Slugs/verify_7.7.0/duct_1.vfy A trunk/data/Slugs/verify_7.7.0/eyeball_1.vfy A trunk/data/Slugs/verify_7.7.0/holes_1.vfy A trunk/data/Slugs/verify_7.7.0/pieslice_1.vfy A trunk/data/Slugs/verify_7.7.0/sphere_1.vfy A trunk/data/Slugs/verify_7.7.0/torus_1.vfy A trunk/data/Slugs/verify_7.7.0/tutorial1.vfy A trunk/data/Slugs/verify_7.7.0/wing_1.vfy A trunk/data/Slugs/verify_7.6.0 A trunk/data/Slugs/verify_7.6.0/blend12_1.vfy A trunk/data/Slugs/verify_7.6.0/blindeye_1.vfy A trunk/data/Slugs/verify_7.6.0/boxBall_1.vfy A trunk/data/Slugs/verify_7.6.0/boxHole_1.vfy A trunk/data/Slugs/verify_7.6.0/box_1.vfy A trunk/data/Slugs/verify_7.6.0/cylinderHole_1.vfy A trunk/data/Slugs/verify_7.6.0/cylinder_1.vfy A trunk/data/Slugs/verify_7.6.0/damaged_2.vfy A trunk/data/Slugs/verify_7.6.0/demo1_1.vfy A trunk/data/Slugs/verify_7.6.0/duct_1.vfy A trunk/data/Slugs/verify_7.6.0/eyeball_1.vfy A trunk/data/Slugs/verify_7.6.0/holes_1.vfy A trunk/data/Slugs/verify_7.6.0/pieslice_1.vfy A trunk/data/Slugs/verify_7.6.0/sphere_1.vfy A trunk/data/Slugs/verify_7.6.0/torus_1.vfy A trunk/data/Slugs/verify_7.6.0/tutorial1.vfy A trunk/data/Slugs/verify_7.6.0/wing_1.vfy A trunk/data/Slugs/holes_0.stl Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ A trunk/data/Slugs/boxBall_0.jrnl A trunk/data/Slugs/boxBall.plot A trunk/data/Slugs/boxBall_0.stl A trunk/data/Slugs/holes.plot A trunk/data/Slugs/holes_0.csm A trunk/data/Slugs/holes_0.jrnl A trunk/data/Slugs/holes_1.csm AU trunk/data/Slugs/tutorial1.stl A trunk/data/Slugs/sphere_0.stl A trunk/data/Slugs/blend12.plot A trunk/data/Slugs/blend12_0.csm A trunk/data/Slugs/blend12_0.stl A trunk/data/Slugs/blindeye.plot A trunk/data/Slugs/blindeye_0.csm A trunk/data/Slugs/blindeye_0.jrnl A trunk/data/Slugs/blindeye_0.stl A trunk/data/Slugs/blindeye_1.csm A trunk/data/Slugs/box.plot A trunk/data/Slugs/boxBall_0.csm A trunk/data/Slugs/boxBall_1.csm A trunk/data/Slugs/boxHole.plot A trunk/data/Slugs/boxHole_0.csm A trunk/data/Slugs/boxHole_0.jrnl A trunk/data/Slugs/boxHole_0.stl A trunk/data/Slugs/box_0.csm A trunk/data/Slugs/box_0.jrnl A trunk/data/Slugs/box_0.stl A trunk/data/Slugs/cylinder.plot A trunk/data/Slugs/cylinderHole.plot A trunk/data/Slugs/cylinderHole_0.csm A trunk/data/Slugs/cylinderHole_0.jrnl A trunk/data/Slugs/cylinderHole_0.stl A trunk/data/Slugs/cylinder_0.csm A trunk/data/Slugs/cylinder_0.jrnl A trunk/data/Slugs/cylinder_0.stl A trunk/data/Slugs/damaged.plot A trunk/data/Slugs/damaged_0.csm A trunk/data/Slugs/damaged_0.stl A trunk/data/Slugs/damaged_1.jrnl A trunk/data/Slugs/demo1.plot A trunk/data/Slugs/demo1_0.csm A trunk/data/Slugs/demo1_0.jrnl A trunk/data/Slugs/demo1_0.stl A trunk/data/Slugs/duct.plot A trunk/data/Slugs/duct_0.csm A trunk/data/Slugs/duct_0.jrnl A trunk/data/Slugs/duct_0.stl A trunk/data/Slugs/eyeball.plot A trunk/data/Slugs/eyeball_0.csm A trunk/data/Slugs/eyeball_0.jrnl A trunk/data/Slugs/eyeball_0.stl A trunk/data/Slugs/myGlider.plot A trunk/data/Slugs/myGlider_0.cpc A trunk/data/Slugs/myGlider_0.stl A trunk/data/Slugs/pieslice.plot A trunk/data/Slugs/pieslice_0.csm A trunk/data/Slugs/pieslice_0.jrnl A trunk/data/Slugs/pieslice_0.stl A trunk/data/Slugs/sphere.plot A trunk/data/Slugs/sphere_0.csm A trunk/data/Slugs/sphere_0.jrnl A trunk/data/Slugs/torus.plot A trunk/data/Slugs/torus_0.csm A trunk/data/Slugs/torus_0.jrnl A trunk/data/Slugs/torus_0.stl A trunk/data/Slugs/tutorial1.jrnl A trunk/data/Slugs/tutorial1.plot A trunk/data/Slugs/tutorial1_setup.csm A trunk/data/Slugs/tutorial1_setup.stl A trunk/data/Slugs/wing.plot A trunk/data/Slugs/wingBody.plot A trunk/data/Slugs/wingBody_0.cpc A trunk/data/Slugs/wingBody_0.stl A trunk/data/Slugs/wing_0.csm A trunk/data/Slugs/wing_0.jrnl A trunk/data/Slugs/wing_0.stl A trunk/data/Slugs/blend12_1.csm A trunk/data/Slugs/boxHole_1.csm A trunk/data/Slugs/box_1.csm A trunk/data/Slugs/cylinderHole_1.csm A trunk/data/Slugs/cylinder_1.csm A trunk/data/Slugs/damaged_2.csm A trunk/data/Slugs/demo1_1.csm A trunk/data/Slugs/duct_1.csm A trunk/data/Slugs/myGlider_2.csm A trunk/data/Slugs/sphere_1.csm A trunk/data/Slugs/torus_1.csm A trunk/data/Slugs/tutorial1.csm A trunk/data/Slugs/wingBody_2.csm A trunk/data/Slugs/wing_1.csm A trunk/data/Slugs/testfiles A trunk/data/Slugs/testfiles/elbow.stl A trunk/data/Slugs/testfiles/elbow_NW.csm A trunk/data/Slugs/testfiles/elbow_NW.jrnl A trunk/data/Slugs/testfiles/elbow_NW.stl A trunk/data/Slugs/testfiles/nucleus1.csm A trunk/data/Slugs/testfiles/nucleus1.jrnl A trunk/data/Slugs/testfiles/nucleus1.stl A trunk/data/Slugs/testfiles/nucleus2.stl A trunk/data/Slugs/testfiles/nucleus3.stl AU trunk/data/Slugs/aneurysm_case1.iges AU trunk/data/Slugs/aneurysm_case1_slugs.stl A trunk/data/Slugs/eyeball_1.csm A trunk/data/Slugs/pieslice_1.csm A trunk/data/Slugs/myGlider_0.jrnl A trunk/data/Slugs/myGlider_1.jrnl A trunk/data/Slugs/damaged_0.jrnl A trunk/data/Slugs/wingBody_0.jrnl A trunk/data/Slugs/wingBody_1.jrnl A trunk/data/Slugs/tutorial1_setup.jrnl A trunk/data/Slugs/blend12_0.jrnl U trunk/ESP/ESP-help.html U trunk/ESP/ESP.js U trunk/ToDo.txt U trunk/doc/ESP_QuickReference.pdf U trunk/doc/ESP_QuickReference.tex U trunk/src/OpenCSM.c U trunk/src/OpenCSM.h U trunk/src/timPyscript.c U trunk/src/Makefile.DARWIN64 At revision 2476 Cleaning up /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP Updating svn+ssh://acdl.mit.edu/home/svnroot/JenkinsESP at revision '2024-04-13T01:37:08.934 -0400' Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ Using sole credentials 3614a4cf-01de-4393-97de-73734b7dd5a2 in realm ‘svn+ssh://acdl.mit.edu’ U ESP_Env.sh At revision 851 [GitCheckoutListener] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM [LINUX64] $ /bin/bash -xe /tmp/jenkins16154264419484493358.sh + export NOCAPS=true + NOCAPS=true + rm -rf /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/data/Slugs + bash -x /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESP_Undefined.sh + source /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESP_Env.sh ++ export OCCTREF=7.6 ++ OCCTREF=7.6 ++ AFLR_VERSION=11.5.9 ++ SU2_VERSION=8.0.0 ++ TETGEN_VERSION=1.6.0 ++ VSP_VERSION=3.34.0 ++ export PYTHON_VERSION=3.11.6 ++ PYTHON_VERSION=3.11.6 ++ export EFCOMP=gfortran ++ EFCOMP=gfortran ++ [[ reynolds == \r\e\y\n\o\l\d\s ]] ++ [[ LINUX64 == \L\I\N\U\X\6\4\.\g\n\u* ]] ++ [[ LINUX64 == *\.\i\f\o\r\t ]] ++ '[' -f /opt/intel/oneapi/setvars.sh ']' ++ source /opt/intel/oneapi/setvars.sh ++ '[' -f /home/jenkins/.bashrc ']' ++ source /home/jenkins/.bashrc +++ DEBUG_MODE=0 +++ [[ hxB == *x* ]] +++ DEBUG_MODE=1 +++ set +x +++ case $- in +++ return ++ export CAPS_OUTLEVEL=0 ++ CAPS_OUTLEVEL=0 ++ [[ LINUX64 == \D\A\R\W\I\N\6\4\.\g\c\c ]] ++ export ESP_BLOC=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64 ++ ESP_BLOC=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64 ++ export ESP_ROOT=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64 ++ ESP_ROOT=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64 ++ export JULIA_DEPOT_PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/julia ++ JULIA_DEPOT_PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/julia ++ export AWAVE=awavemod.f ++ AWAVE=awavemod.f ++ export RLM_CONNECT_TIMEOUT=350 ++ RLM_CONNECT_TIMEOUT=350 ++ [[ 7.6 != '' ]] ++ [[ '' != '' ]] ++ [[ reynolds == *\r\e\y\n\o\l\d\s* ]] ++ [[ '' != '' ]] ++ [[ -d /home/jenkins/util/ESP/Python/ESP_Python-3.11.6 ]] ++ export PYTHONHOME=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6 ++ PYTHONHOME=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6 ++ export PATH=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export LD_LIBRARY_PATH=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib:/opt/intel/oneapi/tbb/2021.11/env/../lib/intel64/gcc4.8:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/lib:/opt/intel/oneapi/mpi/2021.11/lib:/opt/intel/oneapi/mkl/2024.0/lib:/opt/intel/oneapi/dpl/2022.3/lib:/opt/intel/oneapi/debugger/2024.0/opt/debugger/lib:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/host/linux64/lib:/opt/intel/oneapi/compiler/2024.0/opt/compiler/lib:/opt/intel/oneapi/compiler/2024.0/lib ++ LD_LIBRARY_PATH=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib:/opt/intel/oneapi/tbb/2021.11/env/../lib/intel64/gcc4.8:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/lib:/opt/intel/oneapi/mpi/2021.11/lib:/opt/intel/oneapi/mkl/2024.0/lib:/opt/intel/oneapi/dpl/2022.3/lib:/opt/intel/oneapi/debugger/2024.0/opt/debugger/lib:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/host/linux64/lib:/opt/intel/oneapi/compiler/2024.0/opt/compiler/lib:/opt/intel/oneapi/compiler/2024.0/lib ++ export EMPnumProc=4 ++ EMPnumProc=4 ++ export OMP_NUM_THREADS=4 ++ OMP_NUM_THREADS=4 ++ '[' '!' -z '' ']' +++ ls -d /home/jenkins/util/ESP/OpenCASCADE-7.8.0 ++ export CASROOT=/home/jenkins/util/ESP/OpenCASCADE-7.8.0 ++ CASROOT=/home/jenkins/util/ESP/OpenCASCADE-7.8.0 ++ export CASARCH=. ++ CASARCH=. ++ export LD_LIBRARY_PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.8.0/lib:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib:/opt/intel/oneapi/tbb/2021.11/env/../lib/intel64/gcc4.8:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/lib:/opt/intel/oneapi/mpi/2021.11/lib:/opt/intel/oneapi/mkl/2024.0/lib:/opt/intel/oneapi/dpl/2022.3/lib:/opt/intel/oneapi/debugger/2024.0/opt/debugger/lib:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/host/linux64/lib:/opt/intel/oneapi/compiler/2024.0/opt/compiler/lib:/opt/intel/oneapi/compiler/2024.0/lib ++ LD_LIBRARY_PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.8.0/lib:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib:/opt/intel/oneapi/tbb/2021.11/env/../lib/intel64/gcc4.8:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/lib:/opt/intel/oneapi/mpi/2021.11/lib:/opt/intel/oneapi/mkl/2024.0/lib:/opt/intel/oneapi/dpl/2022.3/lib:/opt/intel/oneapi/debugger/2024.0/opt/debugger/lib:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/host/linux64/lib:/opt/intel/oneapi/compiler/2024.0/opt/compiler/lib:/opt/intel/oneapi/compiler/2024.0/lib ++ export ESP_EXTERN_LIBS=/home/jenkins/util/ESP/ExternLibs ++ ESP_EXTERN_LIBS=/home/jenkins/util/ESP/ExternLibs ++ export AFLR=/home/jenkins/util/AFLR/aflr_lib_11.5.9 ++ AFLR=/home/jenkins/util/AFLR/aflr_lib_11.5.9 ++ export AFLR_ARCH=Linux-x86-64 ++ AFLR_ARCH=Linux-x86-64 ++ export PATH=/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export CART3D=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16 ++ CART3D=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16 ++ export CART3D_ARCH=X86_64_ICC ++ CART3D_ARCH=X86_64_ICC ++ export PATH=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export PATH=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export PATH=/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export PATH=/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export MYSTRAN_directory=/home/jenkins/util/mystran/MYSTRAN/Binaries ++ MYSTRAN_directory=/home/jenkins/util/mystran/MYSTRAN/Binaries ++ export PATH=/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export PATH=/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ export CAPS_GLYPH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/CAPS/aim/pointwise/glyph ++ CAPS_GLYPH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/CAPS/aim/pointwise/glyph ++ export PATH=/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ PATH=/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin ++ [[ reynolds == \r\e\y\n\o\l\d\s ]] ++ export SEACAS=/home/jenkins/util/sandialabs/seacas ++ SEACAS=/home/jenkins/util/sandialabs/seacas ++ export SU2_HOME=/home/jenkins/util/SU2/SU2-v8.0.0 ++ SU2_HOME=/home/jenkins/util/SU2/SU2-v8.0.0 ++ export SU2_RUN=/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ SU2_RUN=/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PATH=/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PATH=/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PYTHONPATH=:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export TETGEN=/home/jenkins/util/tetgen/tetgen1.6.0 ++ TETGEN=/home/jenkins/util/tetgen/tetgen1.6.0 ++ export PATH=/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PATH=/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ '[' -d /home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16 ']' +++ perl -I/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/lib/perl5 -Mlocal::lib=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl ++ eval 'PATH="/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin${PATH:+:${PATH}}"; export PATH; PERL5LIB="/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/lib/perl5${PERL5LIB:+:${PERL5LIB}}"; export PERL5LIB; PERL_LOCAL_LIB_ROOT="/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl${PERL_LOCAL_LIB_ROOT:+:${PERL_LOCAL_LIB_ROOT}}"; export PERL_LOCAL_LIB_ROOT; PERL_MB_OPT="--install_base \"/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl\""; export PERL_MB_OPT; PERL_MM_OPT="INSTALL_BASE=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl"; export PERL_MM_OPT;' +++ PATH=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin +++ export PATH +++ PERL5LIB=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/lib/perl5 +++ export PERL5LIB +++ PERL_LOCAL_LIB_ROOT=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl +++ export PERL_LOCAL_LIB_ROOT +++ PERL_MB_OPT='--install_base "/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl"' +++ export PERL_MB_OPT +++ PERL_MM_OPT=INSTALL_BASE=/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl +++ export PERL_MM_OPT ++ export PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PYTHONPATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PYTHONPATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PYTHONPATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/CAPS/pyCAPS:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/CAPS/pyCAPS:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ [[ reynolds == \m\a\c\y\s* ]] ++ [[ reynolds == \v\i\g\g\e\n ]] +++ python-config --includes ++ export 'PYTHONINC=. -I/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/include/python3.11 -I/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/include/python3.11' ++ PYTHONINC='. -I/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/include/python3.11 -I/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/include/python3.11' +++ python-config --help ++ [[ Usage: /home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin/python-config --prefix|--exec-prefix|--includes|--libs|--cflags|--ldflags|--extension-suffix|--help|--abiflags|--configdir|--embed == *\e\m\b\e\d* ]] +++ python-config --ldflags --embed ++ export 'PYTHONLIB= -L/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib -lpython3.11 -lpthread -ldl -lutil -lm ' ++ PYTHONLIB=' -L/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib -lpython3.11 -lpthread -ldl -lutil -lm ' ++ [[ reynolds == \m\a\c\y\s ]] ++ [[ reynolds == \v\i\g\g\e\n ]] ++ export PYTHONUNBUFFERED=true ++ PYTHONUNBUFFERED=true ++ export PYTHONFAULTHANDLER=true ++ PYTHONFAULTHANDLER=true ++ python --version Python 3.11.6 ++ [[ LINUX64 == \D\A\R\W\I\N\6\4\.\g\c\c ]] ++ export CSMDATA=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/data ++ CSMDATA=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/data + [[ reynolds == *\r\e\y\n\o\l\d\s* ]] + VERSION=11 + sed -i s/gcc/gcc-11/ EGADS/trunk/include/LINUX64 + sed -i s/g++/g++-11/ EGADS/trunk/include/LINUX64 + sed -i s/gfortran/gfortran-11/ EGADS/trunk/include/LINUX64 + export EFCOMP=gfortran-11 + EFCOMP=gfortran-11 + '[' 7.8 == ']' /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESP_Undefined.sh: line 16: [: 7.8: unary operator expected + export CASROOT=/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install + CASROOT=/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install + export LD_LIBRARY_PATH=/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.8.0/lib:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib:/opt/intel/oneapi/tbb/2021.11/env/../lib/intel64/gcc4.8:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/lib:/opt/intel/oneapi/mpi/2021.11/lib:/opt/intel/oneapi/mkl/2024.0/lib:/opt/intel/oneapi/dpl/2022.3/lib:/opt/intel/oneapi/debugger/2024.0/opt/debugger/lib:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/host/linux64/lib:/opt/intel/oneapi/compiler/2024.0/opt/compiler/lib:/opt/intel/oneapi/compiler/2024.0/lib + LD_LIBRARY_PATH=/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.8.0/lib:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/lib:/opt/intel/oneapi/tbb/2021.11/env/../lib/intel64/gcc4.8:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/lib:/opt/intel/oneapi/mpi/2021.11/lib:/opt/intel/oneapi/mkl/2024.0/lib:/opt/intel/oneapi/dpl/2022.3/lib:/opt/intel/oneapi/debugger/2024.0/opt/debugger/lib:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/host/linux64/lib:/opt/intel/oneapi/compiler/2024.0/opt/compiler/lib:/opt/intel/oneapi/compiler/2024.0/lib + export 'ESPFLAGS=-fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold' + ESPFLAGS='-fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold' + export 'ESPFFLAGS=-fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold' + ESPFFLAGS='-fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold' + export UBSAN_OPTIONS=suppressions=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/suppression_undefined.txt + UBSAN_OPTIONS=suppressions=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/suppression_undefined.txt + source /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESPbfr.sh ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ ++ tar -xvf /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESPbfr.tgz ESP/ ESP/CYGWIN64/ ESP/CYGWIN64/bin/ ESP/CYGWIN64/bin/mastros.exe ESP/CYGWIN64/bin/ASTRO.D01 ESP/CYGWIN64/bin/ASTRO.IDX ESP/CYGWIN64/include/ ESP/CYGWIN64/lib/ ESP/CYGWIN64/lib/libquadmath-0.dll ESP/CYGWIN64/lib/libwinpthread-1.dll ESP/CYGWIN64/lib/libgcc_s_sjlj-1.dll ESP/CYGWIN64/obj/ ESP/CYGWIN64/test/ ESP/DARWIN64/ ESP/DARWIN64/bin/ ESP/DARWIN64/bin/mastros.exe ESP/DARWIN64/bin/ASTRO.D01 ESP/DARWIN64/bin/mset ESP/DARWIN64/bin/ASTRO.IDX ESP/DARWIN64/bin/avl ESP/DARWIN64/bin/xfoil ESP/DARWIN64/bin/mses ESP/DARWIN64/include/ ESP/DARWIN64/include/nmb.h ESP/DARWIN64/include/xddm/ ESP/DARWIN64/include/xddm/xddmInternals.h ESP/DARWIN64/include/xddm/xddm.h ESP/DARWIN64/include/xddm/xddm.c ESP/DARWIN64/include/converter.h ESP/DARWIN64/include/libCart3D/ ESP/DARWIN64/include/libCart3D/sensors.h ESP/DARWIN64/include/libCart3D/SFC.h ESP/DARWIN64/include/libCart3D/map.h ESP/DARWIN64/include/libCart3D/MGinfo.h ESP/DARWIN64/include/libCart3D/gridStructures.h ESP/DARWIN64/include/libCart3D/timer.h ESP/DARWIN64/include/libCart3D/ConvInfo.h ESP/DARWIN64/include/libCart3D/dualtime.h ESP/DARWIN64/include/libCart3D/stateVector.h ESP/DARWIN64/include/libCart3D/cartCells.h ESP/DARWIN64/include/libCart3D/encoding.h ESP/DARWIN64/include/libCart3D/string_util.h ESP/DARWIN64/include/libCart3D/int64.h ESP/DARWIN64/include/libCart3D/bBox_stuff.h ESP/DARWIN64/include/libCart3D/basicTypes.h ESP/DARWIN64/include/libCart3D/utils_xml.h ESP/DARWIN64/include/libCart3D/hex.h ESP/DARWIN64/include/libCart3D/PostProcInfo.h ESP/DARWIN64/include/libCart3D/SolverInfo.h ESP/DARWIN64/include/libCart3D/earthBL_BC.h ESP/DARWIN64/include/libCart3D/limiters.h ESP/DARWIN64/include/libCart3D/geomStructures.h ESP/DARWIN64/include/libCart3D/CaseInfo.h ESP/DARWIN64/include/libCart3D/memory_util.h ESP/DARWIN64/include/libCart3D/infoStructures.h ESP/DARWIN64/include/libCart3D/geomTypes.h ESP/DARWIN64/include/libCart3D/c3d_timeout.h ESP/DARWIN64/include/libCart3D/myLList.h ESP/DARWIN64/include/libCart3D/IOinfo.h ESP/DARWIN64/include/libCart3D/GridInfo.h ESP/DARWIN64/include/libCart3D/c3d_global.h ESP/DARWIN64/include/libCart3D/vortexBC.h ESP/DARWIN64/include/c3dio/ ESP/DARWIN64/include/c3dio/c3dio_icemcfd.h ESP/DARWIN64/include/c3dio/c3dio_lib.h ESP/DARWIN64/include/udunits.h ESP/DARWIN64/include/udunits2.h ESP/DARWIN64/lib/ ESP/DARWIN64/lib/libudunits2.dylib ESP/DARWIN64/lib/libudunits2.0.dylib ESP/DARWIN64/lib/libCart3D.a ESP/DARWIN64/lib/libnmb.dylib ESP/DARWIN64/lib/libc3dio.a ESP/DARWIN64/obj/ ESP/DARWIN64/test/ ESP/DARWIN_ARM64/ ESP/DARWIN_ARM64/bin/ ESP/DARWIN_ARM64/bin/mastros.exe ESP/DARWIN_ARM64/bin/ASTRO.D01 ESP/DARWIN_ARM64/bin/mset ESP/DARWIN_ARM64/bin/ASTRO.IDX ESP/DARWIN_ARM64/bin/avl ESP/DARWIN_ARM64/bin/xfoil ESP/DARWIN_ARM64/bin/mses ESP/DARWIN_ARM64/include/ ESP/DARWIN_ARM64/include/nmb.h ESP/DARWIN_ARM64/include/xddm/ ESP/DARWIN_ARM64/include/xddm/xddmInternals.h ESP/DARWIN_ARM64/include/xddm/xddm.h ESP/DARWIN_ARM64/include/xddm/xddm.c ESP/DARWIN_ARM64/include/converter.h ESP/DARWIN_ARM64/include/libCart3D/ ESP/DARWIN_ARM64/include/libCart3D/sensors.h ESP/DARWIN_ARM64/include/libCart3D/SFC.h ESP/DARWIN_ARM64/include/libCart3D/map.h ESP/DARWIN_ARM64/include/libCart3D/MGinfo.h ESP/DARWIN_ARM64/include/libCart3D/gridStructures.h ESP/DARWIN_ARM64/include/libCart3D/timer.h ESP/DARWIN_ARM64/include/libCart3D/ConvInfo.h ESP/DARWIN_ARM64/include/libCart3D/dualtime.h ESP/DARWIN_ARM64/include/libCart3D/stateVector.h ESP/DARWIN_ARM64/include/libCart3D/cartCells.h ESP/DARWIN_ARM64/include/libCart3D/encoding.h ESP/DARWIN_ARM64/include/libCart3D/string_util.h ESP/DARWIN_ARM64/include/libCart3D/int64.h ESP/DARWIN_ARM64/include/libCart3D/bBox_stuff.h ESP/DARWIN_ARM64/include/libCart3D/basicTypes.h ESP/DARWIN_ARM64/include/libCart3D/utils_xml.h ESP/DARWIN_ARM64/include/libCart3D/hex.h ESP/DARWIN_ARM64/include/libCart3D/PostProcInfo.h ESP/DARWIN_ARM64/include/libCart3D/SolverInfo.h ESP/DARWIN_ARM64/include/libCart3D/earthBL_BC.h ESP/DARWIN_ARM64/include/libCart3D/limiters.h ESP/DARWIN_ARM64/include/libCart3D/geomStructures.h ESP/DARWIN_ARM64/include/libCart3D/CaseInfo.h ESP/DARWIN_ARM64/include/libCart3D/memory_util.h ESP/DARWIN_ARM64/include/libCart3D/infoStructures.h ESP/DARWIN_ARM64/include/libCart3D/geomTypes.h ESP/DARWIN_ARM64/include/libCart3D/c3d_timeout.h ESP/DARWIN_ARM64/include/libCart3D/myLList.h ESP/DARWIN_ARM64/include/libCart3D/IOinfo.h ESP/DARWIN_ARM64/include/libCart3D/GridInfo.h ESP/DARWIN_ARM64/include/libCart3D/c3d_global.h ESP/DARWIN_ARM64/include/libCart3D/vortexBC.h ESP/DARWIN_ARM64/include/c3dio/ ESP/DARWIN_ARM64/include/c3dio/c3dio_icemcfd.h ESP/DARWIN_ARM64/include/c3dio/c3dio_lib.h ESP/DARWIN_ARM64/include/udunits.h ESP/DARWIN_ARM64/include/udunits2.h ESP/DARWIN_ARM64/lib/ ESP/DARWIN_ARM64/lib/libudunits2.dylib ESP/DARWIN_ARM64/lib/libudunits2.0.dylib ESP/DARWIN_ARM64/lib/libCart3D.a ESP/DARWIN_ARM64/lib/libc3dio.a ESP/DARWIN_ARM64/obj/ ESP/DARWIN_ARM64/test/ ESP/LINUX64/ ESP/LINUX64/bin/ ESP/LINUX64/bin/mastros.exe ESP/LINUX64/bin/ASTRO.D01 ESP/LINUX64/bin/mset ESP/LINUX64/bin/ASTRO.IDX ESP/LINUX64/bin/avl ESP/LINUX64/bin/xfoil ESP/LINUX64/bin/mses ESP/LINUX64/include/ ESP/LINUX64/include/nmb.h ESP/LINUX64/include/xddm/ ESP/LINUX64/include/xddm/xddmInternals.h ESP/LINUX64/include/xddm/xddm.h ESP/LINUX64/include/xddm/xddm.c ESP/LINUX64/include/libCart3D/ ESP/LINUX64/include/libCart3D/sensors.h ESP/LINUX64/include/libCart3D/SFC.h ESP/LINUX64/include/libCart3D/map.h ESP/LINUX64/include/libCart3D/MGinfo.h ESP/LINUX64/include/libCart3D/gridStructures.h ESP/LINUX64/include/libCart3D/timer.h ESP/LINUX64/include/libCart3D/ConvInfo.h ESP/LINUX64/include/libCart3D/dualtime.h ESP/LINUX64/include/libCart3D/stateVector.h ESP/LINUX64/include/libCart3D/cartCells.h ESP/LINUX64/include/libCart3D/encoding.h ESP/LINUX64/include/libCart3D/string_util.h ESP/LINUX64/include/libCart3D/int64.h ESP/LINUX64/include/libCart3D/bBox_stuff.h ESP/LINUX64/include/libCart3D/basicTypes.h ESP/LINUX64/include/libCart3D/utils_xml.h ESP/LINUX64/include/libCart3D/hex.h ESP/LINUX64/include/libCart3D/PostProcInfo.h ESP/LINUX64/include/libCart3D/SolverInfo.h ESP/LINUX64/include/libCart3D/earthBL_BC.h ESP/LINUX64/include/libCart3D/limiters.h ESP/LINUX64/include/libCart3D/geomStructures.h ESP/LINUX64/include/libCart3D/CaseInfo.h ESP/LINUX64/include/libCart3D/memory_util.h ESP/LINUX64/include/libCart3D/infoStructures.h ESP/LINUX64/include/libCart3D/geomTypes.h ESP/LINUX64/include/libCart3D/c3d_timeout.h ESP/LINUX64/include/libCart3D/myLList.h ESP/LINUX64/include/libCart3D/IOinfo.h ESP/LINUX64/include/libCart3D/GridInfo.h ESP/LINUX64/include/libCart3D/c3d_global.h ESP/LINUX64/include/libCart3D/vortexBC.h ESP/LINUX64/include/c3dio/ ESP/LINUX64/include/c3dio/c3dio_icemcfd.h ESP/LINUX64/include/c3dio/c3dio_lib.h ESP/LINUX64/lib/ ESP/LINUX64/lib/libnmb.so ESP/LINUX64/lib/libCart3D.a ESP/LINUX64/lib/libc3dio.a ESP/LINUX64/obj/ ESP/LINUX64/test/ ESP/WIN64/ ESP/WIN64/bin/ ESP/WIN64/bin/mses.exe ESP/WIN64/bin/avl.exe ESP/WIN64/bin/mastros.exe ESP/WIN64/bin/ASTRO.D01 ESP/WIN64/bin/xfoil.exe ESP/WIN64/bin/ASTRO.IDX ESP/WIN64/bin/mset.exe ESP/WIN64/include/ ESP/WIN64/include/nmb.h ESP/WIN64/include/winhelpers/ ESP/WIN64/include/winhelpers/gettimeofday.h ESP/WIN64/include/winhelpers/websock-w32.h ESP/WIN64/include/winhelpers/netdb.h ESP/WIN64/include/winhelpers/unistd.h ESP/WIN64/include/winhelpers/strings.h ESP/WIN64/include/winhelpers/sys/ ESP/WIN64/include/winhelpers/sys/time.h ESP/WIN64/include/converter.h ESP/WIN64/include/udunits.h ESP/WIN64/include/udunits2.h ESP/WIN64/lib/ ESP/WIN64/lib/libquadmath-0.dll ESP/WIN64/lib/nmb.lib ESP/WIN64/lib/libwinpthread-1.dll ESP/WIN64/lib/udunits2.lib ESP/WIN64/lib/libgcc_s_sjlj-1.dll ESP/WIN64/lib/expat.dll ESP/WIN64/lib/udunits2.dll ESP/WIN64/lib/nmb.dll ESP/WIN64/obj/ ESP/WIN64/test/ ESP/LINUX_AARCH64/ ESP/LINUX_AARCH64/bin/ ESP/LINUX_AARCH64/bin/mastros.exe ESP/LINUX_AARCH64/bin/ASTRO.D01 ESP/LINUX_AARCH64/bin/mset ESP/LINUX_AARCH64/bin/ASTRO.IDX ESP/LINUX_AARCH64/bin/avl ESP/LINUX_AARCH64/bin/xfoil ESP/LINUX_AARCH64/bin/mses ESP/LINUX_AARCH64/include/ ESP/LINUX_AARCH64/lib/ ESP/LINUX_AARCH64/obj/ ESP/LINUX_AARCH64/test/ ESP/udunits/ ESP/udunits/udunits2-accepted.xml ESP/udunits/udunits2-base.xml ESP/udunits/udunits2-common.xml ESP/udunits/udunits2.xml ESP/udunits/udunits2-derived.xml ESP/udunits/udunits2-prefixes.xml ++ virtualenv /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv created virtual environment CPython3.11.6.final.0-64 in 144ms creator CPython3Posix(dest=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv, clear=False, no_vcs_ignore=False, global=False) seeder FromAppData(download=False, pip=bundle, setuptools=bundle, wheel=bundle, via=copy, app_data_dir=/home/jenkins/.local/share/virtualenv) added seed packages: pip==24.0, setuptools==69.2.0, wheel==0.43.0 activators BashActivator,CShellActivator,FishActivator,NushellActivator,PowerShellActivator,PythonActivator ++ . /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/activate +++ '[' /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/activate = /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESP_Undefined.sh ']' +++ deactivate nondestructive +++ unset -f pydoc +++ '[' -z '' ']' +++ '[' -z '' ']' +++ hash -r +++ '[' -z '' ']' +++ unset VIRTUAL_ENV +++ unset VIRTUAL_ENV_PROMPT +++ '[' '!' nondestructive = nondestructive ']' +++ VIRTUAL_ENV=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv +++ '[' linux-gnu = cygwin ']' +++ '[' linux-gnu = msys ']' +++ export VIRTUAL_ENV +++ _OLD_VIRTUAL_PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin +++ PATH=/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/lib/perl/bin:/home/jenkins/util/tsfoil:/home/jenkins/util/refine/build_parallel/install/bin:/home/jenkins/util/pointwise/Pointwise2023.2:/home/jenkins/util/mystran/MYSTRAN/Binaries:/home/jenkins/util/julia/julia/bin:/home/jenkins/util/delaundo/delaundo/src:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin:/home/jenkins/util/cart3d/cart3d_v1.5.9_X86_64_ICC--22.11.16/bin/X86_64_ICC/:/home/jenkins/util/abaqus/DassaultSystemes/SIMULIA/Commands:/home/jenkins/util/ESP/Python/ESP_Python-3.11.6/bin:/opt/intel/oneapi/mpi/2021.11/opt/mpi/libfabric/bin:/opt/intel/oneapi/mpi/2021.11/bin:/opt/intel/oneapi/mkl/2024.0/bin/:/opt/intel/oneapi/dev-utilities/2024.0/bin:/opt/intel/oneapi/debugger/2024.0/opt/debugger/bin:/opt/intel/oneapi/compiler/2024.0/opt/oclfpga/bin:/opt/intel/oneapi/compiler/2024.0/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/games:/usr/local/games:/snap/bin:/home/jenkins/util/SU2/SU2-v8.0.0/bin +++ export PATH +++ '[' x '!=' x ']' ++++ basename /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv +++ VIRTUAL_ENV_PROMPT=venv +++ export VIRTUAL_ENV_PROMPT +++ '[' -z _ ']' +++ _OLD_VIRTUAL_PYTHONHOME=/home/jenkins/util/ESP/Python/ESP_Python-3.11.6 +++ unset PYTHONHOME +++ '[' -z '' ']' +++ _OLD_VIRTUAL_PS1= +++ PS1='(venv) ' +++ export PS1 +++ alias pydoc +++ true +++ hash -r ++ pip_install pip ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade pip Requirement already satisfied: pip in ./ESP/venv/lib/python3.11/site-packages (24.0) ++ pip_install f90nml ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade f90nml Collecting f90nml Using cached f90nml-1.4.4-py2.py3-none-any.whl.metadata (6.0 kB) Using cached f90nml-1.4.4-py2.py3-none-any.whl (32 kB) Installing collected packages: f90nml Successfully installed f90nml-1.4.4 ++ pip_install numpy ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade numpy Collecting numpy Using cached numpy-1.26.4-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (61 kB) Using cached numpy-1.26.4-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (18.3 MB) Installing collected packages: numpy Successfully installed numpy-1.26.4 ++ pip_install 'scipy!=1.9.2,!=1.9.3' ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade 'scipy!=1.9.2,!=1.9.3' Collecting scipy!=1.9.2,!=1.9.3 Using cached scipy-1.13.0-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (60 kB) Requirement already satisfied: numpy<2.3,>=1.22.4 in ./ESP/venv/lib/python3.11/site-packages (from scipy!=1.9.2,!=1.9.3) (1.26.4) Using cached scipy-1.13.0-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (38.6 MB) Installing collected packages: scipy Successfully installed scipy-1.13.0 ++ pip_install openmdao ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade openmdao Collecting openmdao Using cached openmdao-3.31.1-py3-none-any.whl Collecting networkx>=2.0 (from openmdao) Using cached networkx-3.3-py3-none-any.whl.metadata (5.1 kB) Requirement already satisfied: numpy in ./ESP/venv/lib/python3.11/site-packages (from openmdao) (1.26.4) Requirement already satisfied: scipy in ./ESP/venv/lib/python3.11/site-packages (from openmdao) (1.13.0) Collecting requests (from openmdao) Using cached requests-2.31.0-py3-none-any.whl.metadata (4.6 kB) Collecting packaging (from openmdao) Using cached packaging-24.0-py3-none-any.whl.metadata (3.2 kB) Collecting charset-normalizer<4,>=2 (from requests->openmdao) Using cached charset_normalizer-3.3.2-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (33 kB) Collecting idna<4,>=2.5 (from requests->openmdao) Using cached idna-3.7-py3-none-any.whl.metadata (9.9 kB) Collecting urllib3<3,>=1.21.1 (from requests->openmdao) Using cached urllib3-2.2.1-py3-none-any.whl.metadata (6.4 kB) Collecting certifi>=2017.4.17 (from requests->openmdao) Using cached certifi-2024.2.2-py3-none-any.whl.metadata (2.2 kB) Using cached networkx-3.3-py3-none-any.whl (1.7 MB) Using cached packaging-24.0-py3-none-any.whl (53 kB) Using cached requests-2.31.0-py3-none-any.whl (62 kB) Using cached certifi-2024.2.2-py3-none-any.whl (163 kB) Using cached charset_normalizer-3.3.2-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (140 kB) Using cached idna-3.7-py3-none-any.whl (66 kB) Using cached urllib3-2.2.1-py3-none-any.whl (121 kB) Installing collected packages: urllib3, packaging, networkx, idna, charset-normalizer, certifi, requests, openmdao Successfully installed certifi-2024.2.2 charset-normalizer-3.3.2 idna-3.7 networkx-3.3 openmdao-3.31.1 packaging-24.0 requests-2.31.0 urllib3-2.2.1 ++ [[ reynolds == *\v\i\g\g\e\n* ]] ++ pip_install cvxopt ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade cvxopt Collecting cvxopt Using cached cvxopt-1.3.2-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (1.3 kB) Using cached cvxopt-1.3.2-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (13.6 MB) Installing collected packages: cvxopt Successfully installed cvxopt-1.3.2 ++ pip_install dill ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade dill Collecting dill Using cached dill-0.3.8-py3-none-any.whl.metadata (10 kB) Using cached dill-0.3.8-py3-none-any.whl (116 kB) Installing collected packages: dill Successfully installed dill-0.3.8 ++ pip_install packaging ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade packaging Requirement already satisfied: packaging in ./ESP/venv/lib/python3.11/site-packages (24.0) ++ pip_install matplotlib ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade matplotlib Collecting matplotlib Using cached matplotlib-3.8.4-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (5.8 kB) Collecting contourpy>=1.0.1 (from matplotlib) Using cached contourpy-1.2.1-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (5.8 kB) Collecting cycler>=0.10 (from matplotlib) Using cached cycler-0.12.1-py3-none-any.whl.metadata (3.8 kB) Collecting fonttools>=4.22.0 (from matplotlib) Using cached fonttools-4.51.0-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (159 kB) Collecting kiwisolver>=1.3.1 (from matplotlib) Using cached kiwisolver-1.4.5-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl.metadata (6.4 kB) Requirement already satisfied: numpy>=1.21 in ./ESP/venv/lib/python3.11/site-packages (from matplotlib) (1.26.4) Requirement already satisfied: packaging>=20.0 in ./ESP/venv/lib/python3.11/site-packages (from matplotlib) (24.0) Collecting pillow>=8 (from matplotlib) Using cached pillow-10.3.0-cp311-cp311-manylinux_2_28_x86_64.whl.metadata (9.2 kB) Collecting pyparsing>=2.3.1 (from matplotlib) Using cached pyparsing-3.1.2-py3-none-any.whl.metadata (5.1 kB) Collecting python-dateutil>=2.7 (from matplotlib) Using cached python_dateutil-2.9.0.post0-py2.py3-none-any.whl.metadata (8.4 kB) Collecting six>=1.5 (from python-dateutil>=2.7->matplotlib) Using cached six-1.16.0-py2.py3-none-any.whl.metadata (1.8 kB) Using cached matplotlib-3.8.4-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (11.6 MB) Using cached contourpy-1.2.1-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (306 kB) Using cached cycler-0.12.1-py3-none-any.whl (8.3 kB) Using cached fonttools-4.51.0-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (4.9 MB) Using cached kiwisolver-1.4.5-cp311-cp311-manylinux_2_17_x86_64.manylinux2014_x86_64.whl (1.4 MB) Using cached pillow-10.3.0-cp311-cp311-manylinux_2_28_x86_64.whl (4.5 MB) Using cached pyparsing-3.1.2-py3-none-any.whl (103 kB) Using cached python_dateutil-2.9.0.post0-py2.py3-none-any.whl (229 kB) Using cached six-1.16.0-py2.py3-none-any.whl (11 kB) Installing collected packages: six, pyparsing, pillow, kiwisolver, fonttools, cycler, contourpy, python-dateutil, matplotlib Successfully installed contourpy-1.2.1 cycler-0.12.1 fonttools-4.51.0 kiwisolver-1.4.5 matplotlib-3.8.4 pillow-10.3.0 pyparsing-3.1.2 python-dateutil-2.9.0.post0 six-1.16.0 ++ [[ /home/jenkins/util/ESP/ExternLibs == '' ]] ++ '[' -d /home/jenkins/util/ESP/ExternLibs ']' ++ cp /home/jenkins/util/ESP/ExternLibs/intersectWake.so /home/jenkins/util/ESP/ExternLibs/markWakeEdges.so /home/jenkins/util/ESP/ExternLibs/sansLIPAIM.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/src ++ make touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/LINUX64 rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/LINUX64 cp -p ../include/LINUX64 /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/LINUX64 touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/STANALYZER.make rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/STANALYZER.make cp -p ../include/STANALYZER.make /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/STANALYZER.make touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads.h cp -p ../include/egads.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads_dot.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads_dot.h cp -p ../include/egads_dot.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads_dot.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads.inc rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads.inc cp -p ../include/egads.inc /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egads.inc touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsErrors.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsErrors.h cp -p ../include/egadsErrors.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsErrors.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsTypes.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsTypes.h cp -p ../include/egadsTypes.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsTypes.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/emp.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/emp.h cp -p ../include/emp.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/emp.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/prm.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/prm.h cp -p ../include/prm.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/prm.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsserver.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsserver.h cp -p ../include/wsserver.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsserver.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsserver.inc rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsserver.inc cp -p ../include/wsserver.inc /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsserver.inc touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsss.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsss.h cp -p ../include/wsss.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/wsss.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsTris.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsTris.h cp -p egadsTris.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsTris.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsSplineFit.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsSplineFit.h cp -p egadsSplineFit.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsSplineFit.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsSplineVels.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsSplineVels.h cp -p egadsSplineVels.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsSplineVels.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsf90.inc rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsf90.inc cp -p ../include/egadsf90.inc /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egadsf90.inc mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealD.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/SurrealD.h mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealD_Lazy.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/SurrealD_Lazy.h mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealD_Trad.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/SurrealD_Trad.h mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealS.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/SurrealS.h mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealS_Lazy.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/SurrealS_Lazy.h mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealS_Trad.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/SurrealS_Trad.h mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/always_inline.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/Surreal/always_inline.h g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsGeom.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsGeom.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsHLevel.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsHLevel.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsTopo.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTopo.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsCopy.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsCopy.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsSpline.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSpline.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsIO.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsIO.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsSplineFit.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSplineFit.o egadsSplineFit.cpp: In function ‘int EG_spline2dAppr(int, int, int, const T*, const T*, const T*, const int*, const T*, const T*, const T*, T*, const T*, T*, double, int*, T**) [with T = double]’: egadsSplineFit.cpp:1418:1: note: variable tracking size limit exceeded with ‘-fvar-tracking-assignments’, retrying without 1418 | EG_spline2dAppr(int endcx, int imaxx, int jmaxx, const T *xyz, | ^~~~~~~~~~~~~~~ egadsSplineFit.cpp: In function ‘int EG_spline2dAppr(int, int, int, const T*, const T*, const T*, const int*, const T*, const T*, const T*, T*, const T*, T*, double, int*, T**) [with T = SurrealS<1>]’: egadsSplineFit.cpp:1418:1: note: variable tracking size limit exceeded with ‘-fvar-tracking-assignments’, retrying without g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsSkinning.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSkinning.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include \ -I. egadsTessSens.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTessSens.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install OCC/BRepLib_FuseEdges.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/BRepLib_FuseEdges.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsBase.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsBase.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsMemory.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsMemory.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsAttrs.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsAttrs.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsTess.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTess.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsTessInp.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTessInp.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsTris.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTris.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsQuads.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsQuads.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsFit.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsFit.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsRobust.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsRobust.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsSBO.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSBO.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap prmCfit.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/prmCfit.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap prmGrid.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/prmGrid.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap prmUV.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/prmUV.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsExport.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsExport.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsEffect.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsEffect.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I../util \ -I../util/uvmap egadsSolids.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSolids.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include ../util/emp.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/emp.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -x c++ -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -IOCC -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I. -I../include \ ../util/evaluate.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/evaluate.o ../util/evaluate.c: In function ‘int EG_evaluateGeom(const egObject*, const TT*, TT*) [with TT = SurrealS<1>]’: ../util/evaluate.c:1063:1: note: variable tracking size limit exceeded with ‘-fvar-tracking-assignments’, retrying without 1063 | EG_evaluateGeom(const egObject *geom, const DOUBLE *param, DOUBLE *result) | ^~~~~~~~~~~~~~~ g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -x c++ -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I. -I../include \ ../util/rational.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/rational.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/inc -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install -I../include -I../util \ ../util/regQuads.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/regQuads.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealD1 -O -std=c++11 -I. ../util/SurrealD1_btest.cpp /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealD1 SurrealD1_test_suite Complete! g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealD4 -O -std=c++11 -I. ../util/SurrealD4_btest.cpp /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealD4 SurrealD4_test_suite Complete! g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealS1 -O -std=c++11 -I. ../util/SurrealS1_btest.cpp /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealS1 SurrealS1_test_suite Complete! g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealS4 -O -std=c++11 -I. ../util/SurrealS4_btest.cpp ../util/SurrealS4_btest.cpp: In function ‘void deriv2()’: ../util/SurrealS4_btest.cpp:1528:23: note: variable tracking size limit exceeded with ‘-fvar-tracking-assignments’, retrying without 1528 | BOOST_AUTO_TEST_CASE( deriv2 ) | ^~~~~~ ../util/SurrealS4_btest.cpp:19:42: note: in definition of macro ‘BOOST_AUTO_TEST_CASE’ 19 | #define BOOST_AUTO_TEST_CASE( fun ) void fun() | ^~~ ../util/SurrealS4_btest.cpp: In function ‘void multiply_deriv2()’: ../util/SurrealS4_btest.cpp:1265:23: note: variable tracking size limit exceeded with ‘-fvar-tracking-assignments’, retrying without 1265 | BOOST_AUTO_TEST_CASE( multiply_deriv2 ) | ^~~~~~~~~~~~~~~ ../util/SurrealS4_btest.cpp:19:42: note: in definition of macro ‘BOOST_AUTO_TEST_CASE’ 19 | #define BOOST_AUTO_TEST_CASE( fun ) void fun() | ^~~ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SurrealS4 SurrealS4_test_suite Complete! make -C ../util make[1]: Entering directory '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/util' gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 uvmap/main/uvmap.c -Iuvmap \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/EG_uvmapFindUV.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/EG_uvmapFindUV.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/EG_uvmapGen.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/EG_uvmapGen.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/EG_uvmap_Read.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/EG_uvmap_Read.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/EG_uvmapStructFree.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/EG_uvmapStructFree.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/EG_uvmapTest.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/EG_uvmapTest.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/EG_uvmap_Write.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/EG_uvmap_Write.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_add.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_add.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_bnd_adj.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_bnd_adj.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_chk_area_uv.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_chk_area_uv.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_chk_edge_ratio.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_chk_edge_ratio.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_cpu_message.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_cpu_message.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_find_uv.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_find_uv.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_from_egads.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_from_egads.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_gen.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_gen.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_gen_uv.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_gen_uv.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_ibeibe.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_ibeibe.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_ibfibf.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_ibfibf.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_ibfin.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_ibfin.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_iccibe.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_iccibe.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_iccin.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_iccin.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_idibe.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_idibe.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_inibe.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_inibe.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_inl_uv_bnd.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_inl_uv_bnd.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_malloc.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_malloc.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_mben_disc.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_mben_disc.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_message.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_message.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_norm_uv.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_norm_uv.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_read.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_read.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_solve.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_solve.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_struct_tasks.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_struct_tasks.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_test.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_test.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_to_egads.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_to_egads.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_version.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_version.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I. uvmap/uvmap_write.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap_write.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 egadsUVmap.c -Iuvmap \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsUVmap.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libuvmap.a rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libuvmap.a (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libuvmap.a /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsUVmap.o EG_uvmapFindUV.o EG_uvmapGen.o EG_uvmap_Read.o EG_uvmapStructFree.o EG_uvmapTest.o EG_uvmap_Write.o uvmap_add.o uvmap_bnd_adj.o uvmap_chk_area_uv.o uvmap_chk_edge_ratio.o uvmap_cpu_message.o uvmap_find_uv.o uvmap_from_egads.o uvmap_gen.o uvmap_gen_uv.o uvmap_ibeibe.o uvmap_ibfibf.o uvmap_ibfin.o uvmap_iccibe.o uvmap_iccin.o uvmap_idibe.o uvmap_inibe.o uvmap_inl_uv_bnd.o uvmap_malloc.o uvmap_mben_disc.o uvmap_message.o uvmap_norm_uv.o uvmap_read.o uvmap_solve.o uvmap_struct_tasks.o uvmap_test.o uvmap_to_egads.o uvmap_version.o uvmap_write.o; ) ar: creating /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libuvmap.a gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/uvmap.exe /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/uvmap.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -luvmap -lrt -lm make[1]: Leaving directory '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/util' touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegads.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegads.so (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegads.so \ egadsGeom.o egadsHLevel.o egadsTopo.o egadsCopy.o egadsSpline.o egadsIO.o egadsSplineFit.o egadsSkinning.o egadsTessSens.o BRepLib_FuseEdges.o egadsBase.o egadsMemory.o egadsAttrs.o egadsTess.o egadsTessInp.o egadsTris.o egadsQuads.o egadsFit.o egadsRobust.o egadsSBO.o prmCfit.o prmGrid.o prmUV.o egadsExport.o egadsEffect.o egadsSolids.o emp.o evaluate.o rational.o regQuads.o \ -L/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/./lib -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -luvmap -lTKBool -lTKernel -lTKFeat -lTKBO -lTKGeomAlgo -lTKMath -lTKOffset -lTKPrim -lTKTopAlgo -lTKBRep -lTKG2d -lTKG3d -lTKGeomBase -lTKShHealing -lTKDESTEP -lTKDEIGES -lTKXSBase -lTKFillet -pthread -lm -lstdc++ -lrt ) touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadstatic.a rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadstatic.a cp /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libuvmap.a /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadstatic.a (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; \ ar rs /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadstatic.a egadsBase.o egadsMemory.o egadsAttrs.o egadsTess.o egadsTessInp.o egadsTris.o egadsQuads.o egadsFit.o egadsRobust.o egadsSBO.o prmCfit.o prmGrid.o prmUV.o egadsExport.o egadsEffect.o egadsSolids.o egadsGeom.o egadsHLevel.o egadsTopo.o egadsCopy.o egadsSpline.o egadsIO.o egadsSplineFit.o egadsSkinning.o egadsTessSens.o BRepLib_FuseEdges.o emp.o \ evaluate.o rational.o regQuads.o; ) gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsBase.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsBase.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsMemory.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsMemory.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsAttrs.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsAttrs.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsTess.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsTess.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsHLevel.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsHLevel.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsGeom.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsGeom.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include fgadsTopo.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fgadsTopo.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libfgads.a rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libfgads.a (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libfgads.a fgadsBase.o fgadsMemory.o fgadsAttrs.o fgadsTess.o fgadsHLevel.o fgadsGeom.o fgadsTopo.o; ) ar: creating /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libfgads.a touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libemp.a rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libemp.a (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libemp.a emp.o; ) ar: creating /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libemp.a *** EGADS Build Complete! *** ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/wvServer ++ make g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 map.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/map.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include base64-decode.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/base64-decode.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include handshake.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/handshake.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include client-handshake.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/client-handshake.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include libwebsockets.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/libwebsockets.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include extension-deflate-stream.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/extension-deflate-stream.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include md5.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/md5.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include extension-x-google-mux.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/extension-x-google-mux.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include parsers.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/parsers.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include extension.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/extension.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include sha-1.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sha-1.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include server.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/server.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include wv.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/wv.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include browserMessage.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/browserMessage.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include fwv.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fwv.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.a rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.a (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.a map.o base64-decode.o handshake.o client-handshake.o libwebsockets.o extension-deflate-stream.o md5.o extension-x-google-mux.o parsers.o extension.o sha-1.o server.o wv.o browserMessage.o \ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fwv.o; ) ar: creating /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.a gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DLWS_NO_FORK -DSTANDALONE server.c \ -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/servertest.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/server /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/servertest.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.a \ -lpthread -lz -lm touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.so (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libwsserver.so base64-decode.o handshake.o client-handshake.o libwebsockets.o extension-deflate-stream.o md5.o extension-x-google-mux.o parsers.o extension.o sha-1.o server.o wv.o browserMessage.o map.o -lz -lpthread) ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/lite ++ make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteBase.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteBase.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteMemory.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteMemory.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteGeom.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteGeom.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteTopo.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteTopo.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteAttrs.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteAttrs.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteImport.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteImport.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src -I../util/uvmap \ liteString.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteString.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I. -I../src \ ../src/egadsTess.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteTess.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I. -I../src \ ../src/egadsTris.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteTris.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I../include -I. -I../src \ ../src/egadsQuads.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteQuads.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I. -I../src \ -I../util ../src/egadsTessInp.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteTessInp.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I. -I../src \ ../util/evaluate.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/evaLite.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE ../util/rational.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/ratLite.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I../util \ ../util/regQuads.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteRegQuads.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I. -I../src \ ../src/egadsEffect.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteEffect.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DLITE -I../include -I. -I../src \ -I../util/uvmap liteUVmap.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/liteUVmap.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslite.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslite.so (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslite.so liteBase.o liteMemory.o liteGeom.o liteTopo.o liteAttrs.o liteImport.o liteString.o liteTess.o liteTris.o \ liteQuads.o liteTessInp.o egadsRobust.o emp.o evaLite.o \ ratLite.o liteRegQuads.o liteEffect.o liteUVmap.o \ -lpthread -lm ) touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a (cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a liteBase.o liteMemory.o liteGeom.o liteTopo.o liteAttrs.o liteImport.o liteString.o \ liteTess.o liteTris.o liteQuads.o liteTessInp.o egadsRobust.o \ emp.o evaLite.o ratLite.o liteRegQuads.o liteEffect.o \ liteUVmap.o ; ) ar: creating /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/test +++ ls addKnots.make agglom.make approx.make blend.make BSplineIGES.make chamfer.make closure.make CSys.make edge2WB.make edges.make effective.make egads2cart.make egads2ply.make egadsGeom_dot.make egadsHLevel_dot.make egadsSpline_dot.make egadsTopo_dot.make exportLite.make extrot.make fillet.make fit.make fitTri.make fullAttr.make fuseSheets.make GBO.make globalTess.make hollowFace.make hollow.make intersect.make makeCone.make makeFace3D.make makeLoop.make mapTess.make mofb.make mssb.make multiContext.make offset.make rebuild.make refObj.make replace.make revolve.make ruled.make saveTess.make SBO.make scribe.make sew.make simplePer.make smallEdges.make step.make sweep.make test.make tolerance.make union.make vAttr.make vCurvature.make vEffect.make vEto.make vFrame.make vGeom.make vQuad.make vTessInp.make vTess.make xform.make ++ for file in `ls *.make` ++ make -f addKnots.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include addKnots.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/addKnots.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/addKnots /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/addKnots.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f agglom.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include agglom.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/agglom.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/agglom /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/agglom.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lrt -legads -lm ++ for file in `ls *.make` ++ make -f approx.make gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include approx.f -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/approx.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/approx /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/approx.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lfgads \ -legads -lstdc++ ++ for file in `ls *.make` ++ make -f blend.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include blend.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/blend.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/blend /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/blend.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f BSplineIGES.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include BSplineIGES.c -o \ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/BSplineIGES.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/BSplineIGES /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/BSplineIGES.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f chamfer.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include chamfer.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/chamfer.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/chamfer /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/chamfer.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f closure.make gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include closure.f -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/closure.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/closure /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/closure.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lfgads \ -legads -lstdc++ ++ for file in `ls *.make` ++ make -f CSys.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include CSys.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/CSys.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/CSys /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/CSys.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f edge2WB.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include edge2WB.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/edge2WB.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/edge2WB /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/edge2WB.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f edges.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include edges.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/edges.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/edges /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/edges.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f effective.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include effective.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/effective.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/effective /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/effective.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egads2cart.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egads2cart.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egads2cart.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/egads2cart /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egads2cart.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egads2ply.make g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. egads2ply.cpp -std=c++11 \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egads2ply.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -I. tinyply.cpp -std=c++11 -w \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/tinyply.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/egads2ply /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egads2ply.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/tinyply.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f egadsGeom_dot.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egadsGeom_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsGeom_dot.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egadsTools_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/egadsGeom_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsGeom_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egadsHLevel_dot.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egadsHLevel_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsHLevel_dot.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/egadsHLevel_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsHLevel_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egadsSpline_dot.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egadsSpline_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSpline_dot.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/egadsSpline_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsSpline_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egadsTopo_dot.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egadsTopo_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTopo_dot.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/egadsTopo_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTopo_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f exportLite.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I../util/uvmap \ ../src/egadsExport.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/exportLite.o -DSTANDALONE g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/exportLite /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/exportLite.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f extrot.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include extrot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/extrot.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/extrot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/extrot.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fillet.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include fillet.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fillet.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/fillet /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fillet.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fit.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include fit.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fit.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/fit /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fit.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fitTri.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include fitTri.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fitTri.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/fitTri /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fitTri.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fullAttr.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include fullAttr.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fullAttr.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/fullAttr /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fullAttr.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f fuseSheets.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include fuseSheets.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fuseSheets.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/fuseSheets /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/fuseSheets.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f GBO.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include GBO.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/GBO.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/GBO /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/GBO.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f globalTess.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include globalTess.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/globalTess.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/globalTess /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/globalTess.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f hollowFace.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include hollowFace.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/hollowFace.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/hollowFace /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/hollowFace.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f hollow.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include hollow.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/hollow.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/hollow /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/hollow.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f intersect.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include intersect.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/intersect.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/intersect /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/intersect.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f makeCone.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include makeCone.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/makeCone.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/makeCone /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/makeCone.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f makeFace3D.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include makeFace3D.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/makeFace3D.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/makeFace3D /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/makeFace3D.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f makeLoop.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include makeLoop.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/makeLoop.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/makeLoop /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/makeLoop.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f mapTess.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include mapTess.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/mapTess.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/mapTess /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/mapTess.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f mofb.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include mofb.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/mofb.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/mofb /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/mofb.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f mssb.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include mssb.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/mssb.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/mssb /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/mssb.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f multiContext.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include multiContext.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/multiContext.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/multiContext /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/multiContext.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib \ -legads -lrt -lm ++ for file in `ls *.make` ++ make -f offset.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include offset.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/offset.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/offset /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/offset.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f rebuild.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include rebuild.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/rebuild.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/rebuild /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/rebuild.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f refObj.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include refObj.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/refObj.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/refObj /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/refObj.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f replace.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include replace.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/replace.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/replace /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/replace.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f revolve.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include revolve.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/revolve.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/revolve /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/revolve.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f ruled.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include ruled.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/ruled.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/ruled /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/ruled.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f saveTess.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include saveTess.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/saveTess.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/saveTess /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/saveTess.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f SBO.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include SBO.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SBO.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/SBO /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/SBO.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f scribe.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include scribe.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/scribe.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/scribe /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/scribe.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f sew.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include sew.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sew.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/sew /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sew.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f simplePer.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include simplePer.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/simplePer.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/simplePer /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/simplePer.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f smallEdges.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include smallEdges.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/smallEdges.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/smallEdges /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/smallEdges.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f step.make gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include step.f -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/step.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/step /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/step.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ ++ for file in `ls *.make` ++ make -f sweep.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include sweep.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sweep.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/sweep /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sweep.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f test.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include testc.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/testc.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/testc /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/testc.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include testf.f -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/testf.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/testf /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/testf.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include parsec.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/parsec.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/parsec /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/parsec.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include parsef.f -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/parsef.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/parsef /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/parsef.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ ++ for file in `ls *.make` ++ make -f tolerance.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include tolerance.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/tolerance.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/tolerance /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/tolerance.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f union.make gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include union.f -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/union.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/union /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/union.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ ++ for file in `ls *.make` ++ make -f vAttr.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vAttr.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vAttr.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vAttr /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vAttr.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vCurvature.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vCurvature.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vCurvature.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vCurvature /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vCurvature.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vEffect.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vEffect.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vEffect.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vEffect /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vEffect.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vEto.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vEto.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vEto.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vEto /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vEto.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -lrt ++ for file in `ls *.make` ++ make -f vFrame.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vFrame.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vFrame.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vFrame /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vFrame.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -lrt ++ for file in `ls *.make` ++ make -f vGeom.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vGeom.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vGeom.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vGeom /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vGeom.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legads \ -lrt ++ for file in `ls *.make` ++ make -f vQuad.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vQuad.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vQuad.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vQuad /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vQuad.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver \ -legads -lrt ++ for file in `ls *.make` ++ make -f vTessInp.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vTessInp.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vTessInp.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vTessInp /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vTessInp.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vTess.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include vTess.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vTess.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include ../util/retessFaces.c \ -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/retessFaces.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vTesstatic /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vTess.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/retessFaces.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legadstatic -L/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/./lib -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lTKBool -lTKernel -lTKFeat -lTKBO -lTKGeomAlgo -lTKMath -lTKOffset -lTKPrim -lTKTopAlgo -lTKBRep -lTKG2d -lTKG3d -lTKGeomBase -lTKShHealing -lTKDESTEP -lTKDEIGES -lTKXSBase -lTKFillet -pthread -lm \ -lpthread -lz -lrt -lm g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/vTess /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/vTess.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/retessFaces.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f xform.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include xform.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/xform.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/test/xform /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/xform.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/Tutorial ++ make -f tire.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include tire.c g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o tire tire.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ make -f egads2tri.make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include egads2tri.c g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o egads2tri egads2tri.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/EGADS_dot/src ++ make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. circle1_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/circle1_dot.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. pingBodies.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/pingBodies.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o circle1_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/circle1_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. circle2_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/circle2_dot.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o circle2_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/circle2_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. naca_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/naca_dot.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o naca_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/naca_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. ruled_naca_dot.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/ruled_naca_dot.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o ruled_naca_dot /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/ruled_naca_dot.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm -lrt ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/src ++ make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. serveCSM.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/serveCSM.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. OpenCSM.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/OpenCSM.o OpenCSM.c: In function ‘ocsmBuild’: OpenCSM.c:8209:1: note: variable tracking size limit exceeded with ‘-fvar-tracking-assignments’, retrying without 8209 | ocsmBuild(void *modl, /* (in) pointer to MODL */ | ^~~~~~~~~ gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udp.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udp.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. tim.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/tim.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libocsm.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libocsm.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/libocsm.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/OpenCSM.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udp.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/tim.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lwsserver -ldl -lrt -lm g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/serveCSM /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/serveCSM.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. serveESP.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/serveESP.o g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/serveESP /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/serveESP.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. sensCSM.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sensCSM.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/sensCSM.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lrt -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpBezier.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBezier.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/bezier.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/bezier.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/bezier.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBezier.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpBiconvex.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBiconvex.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/biconvex.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/biconvex.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/biconvex.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBiconvex.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpBox.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBox.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/box.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/box.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/box.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBox.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpBspline.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBspline.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/bspline.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/bspline.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/bspline.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpBspline.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfCatmull.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCatmull.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/catmull.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/catmull.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/catmull.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCatmull.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfCompare.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCompare.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/compare.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/compare.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/compare.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCompare.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfCreateBEM.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCreateBEM.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/createBEM.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/createBEM.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/createBEM.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCreateBEM.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfCreatePoly.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCreatePoly.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/createPoly.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/createPoly.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/createPoly.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfCreatePoly.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpCsm.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpCsm.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/csm.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/csm.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/csm.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpCsm.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfDeform.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfDeform.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/deform.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/deform.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/deform.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfDeform.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfDroop.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfDroop.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/droop.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/droop.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/droop.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfDroop.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfDumpPmtrs.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfDumpPmtrs.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/dumpPmtrs.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/dumpPmtrs.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/dumpPmtrs.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfDumpPmtrs.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfEditAttr.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfEditAttr.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/editAttr.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/editAttr.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/editAttr.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfEditAttr.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpEllipse.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpEllipse.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ellipse.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ellipse.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ellipse.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpEllipse.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpEqn2body.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpEqn2body.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/eqn2body.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/eqn2body.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/eqn2body.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpEqn2body.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpFitcurve.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpFitcurve.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/fitcurve.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/fitcurve.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/fitcurve.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpFitcurve.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfFlend.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfFlend.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/flend.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/flend.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/flend.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfFlend.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpFreeform.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpFreeform.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/freeform.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/freeform.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/freeform.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpFreeform.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfGanged.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfGanged.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ganged.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ganged.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ganged.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfGanged.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfGuide.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfGuide.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/guide.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/guide.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/guide.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfGuide.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpHex.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpHex.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/hex.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/hex.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/hex.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpHex.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpImport.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpImport.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/import.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/import.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/import.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpImport.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpKulfan.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpKulfan.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/kulfan.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/kulfan.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/kulfan.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpKulfan.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfLinalg.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfLinalg.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/linalg.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/linalg.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/linalg.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfLinalg.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfMatchBodys.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfMatchBodys.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/matchBodys.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/matchBodys.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/matchBodys.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfMatchBodys.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfMechanism.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfMechanism.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/mechanism.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/mechanism.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/mechanism.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfMechanism.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpNaca.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpNaca.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpNaca.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfNaca6mc.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfNaca6mc.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca6mc.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca6mc.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca6mc.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfNaca6mc.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfNacelle.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfNacelle.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nacelle.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nacelle.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nacelle.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfNacelle.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpNurbbody.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpNurbbody.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nurbbody.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nurbbody.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nurbbody.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpNurbbody.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfNuscale.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfNuscale.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nuscale.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nuscale.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/nuscale.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfNuscale.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfOffset.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfOffset.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/offset.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/offset.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/offset.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfOffset.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpParabaloid.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpParabaloid.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/parabaloid.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/parabaloid.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/parabaloid.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpParabaloid.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -DOCC_CONVERT_SIGNALS -D_GNU_SOURCE=1 -DNDEBUG -DNo_Exception -D_OCC64 -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -std=c++11 -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpParsec.cpp -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpParsec.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/parsec.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/parsec.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/parsec.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpParsec.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpPod.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpPod.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/pod.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/pod.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/pod.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpPod.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpPoly.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpPoly.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/poly.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/poly.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/poly.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpPoly.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfPrintBbox.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfPrintBbox.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printBbox.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printBbox.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printBbox.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfPrintBbox.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfPrintBrep.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfPrintBrep.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printBrep.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printBrep.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printBrep.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfPrintBrep.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfPrintEgo.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfPrintEgo.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printEgo.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printEgo.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/printEgo.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfPrintEgo.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpProp.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpProp.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/prop.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/prop.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/prop.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpProp.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpRadwaf.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpRadwaf.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/radwaf.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/radwaf.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/radwaf.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpRadwaf.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpSample.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpSample.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/sample.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/sample.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/sample.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpSample.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpSew.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpSew.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/sew.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/sew.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/sew.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpSew.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfShadow.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfShadow.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/shadow.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/shadow.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/shadow.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfShadow.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfSlices.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfSlices.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/slices.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/slices.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/slices.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfSlices.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpStag.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpStag.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/stag.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/stag.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/stag.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpStag.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfStiffener.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfStiffener.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/stiffener.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/stiffener.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/stiffener.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfStiffener.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpSupell.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpSupell.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/supell.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/supell.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/supell.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpSupell.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udfTester1.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfTester1.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/tester1.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/tester1.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/tester1.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udfTester1.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpTester2.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpTester2.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/tester2.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/tester2.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/tester2.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpTester2.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpVsp3.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpVsp3.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/vsp3.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/vsp3.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/vsp3.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpVsp3.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpWaffle.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpWaffle.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/waffle.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/waffle.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/waffle.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpWaffle.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpWarp.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpWarp.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/warp.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/warp.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/warp.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpWarp.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. eggPDT2.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/eggPDT2.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/PDT2.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/PDT2.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/PDT2.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/eggPDT2.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. udpNaca456.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpNaca456.o gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer naca456.f90 -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/naca456.o -J /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca456.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca456.so gfortran-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/naca456.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/udpNaca456.o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/naca456.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. timEreped.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timEreped.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ereped.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ereped.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/ereped.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timEreped.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. timMitten.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timMitten.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/mitten.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/mitten.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/mitten.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timMitten.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. timPlotter.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timPlotter.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/plotter.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/plotter.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/plotter.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timPlotter.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. timPlugs.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timPlugs.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/plugs.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/plugs.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/plugs.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timPlugs.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. timSlugs.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timSlugs.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/slugs.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/slugs.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/slugs.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timSlugs.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lm gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include -I. timVspSetup.c -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timVspSetup.o touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/vspSetup.so rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/vspSetup.so g++-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib/vspSetup.so /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/obj/timVspSetup.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lm touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/OpenCSM.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/OpenCSM.h cp -p OpenCSM.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/OpenCSM.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/common.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/common.h cp -p common.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/common.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udp.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udp.h cp -p udp.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udp.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/esp.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/esp.h cp -p esp.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/esp.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/tim.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/tim.h cp -p tim.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/tim.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egg.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egg.h cp -p egg.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/egg.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udpUtilities.h rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udpUtilities.h cp -p udpUtilities.h /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udpUtilities.h touch /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udpUtilities.c rm /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udpUtilities.c cp -p udpUtilities.c /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include/udpUtilities.c ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/EGADS/trunk/docs/UDP_UDF/data ++ make gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include udpTire.c -o tire.o gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -o tire tire.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -c -O -fno-unit-at-a-time -fPIC -Wall -Wno-dangling-else -Wno-parentheses -Wno-unused-result -Wno-format-truncation -DREVISION=7.8 -DUDP -I/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/include udpTire.c touch tire.so rm tire.so gcc-11 -g -fsanitize=undefined -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o tire.so udpTire.o -L/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/lib -legads -lm -lrt ++ [[ true == '' ]] ++ ln -f -s /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/udc /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64 +++ find /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/OpenCSM/trunk/data/training/ -name Makefile + source /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/ESP_Sanitize.sh ++ '[' -z '' ']' ++ OUTLEVEL=0 ++ mkdir -p /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/test ++ cd /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/test ++ [[ sensCSM/geom =~ [0-9]+.[0-9]+ ]] ++ export ESPTEST=sensCSM/geom ++ ESPTEST=sensCSM/geom ++ [[ sensCSM/geom == \C\A\P\S* ]] ++ [[ sensCSM/geom == \s\e\n\s\C\S\M* ]] ++ '[' -z '' ']' ++ CSMPATTERN='design*.csm' ++ for i in $CSMPATTERN ++ sort -f ++ ls ../../OpenCSM/trunk/data/basic/design0a.csm ../../OpenCSM/trunk/data/basic/design0b.csm ../../OpenCSM/trunk/data/basic/design0c.csm ../../OpenCSM/trunk/data/basic/design0.csm ../../OpenCSM/trunk/data/basic/design0d.csm ../../OpenCSM/trunk/data/basic/design0e.csm ../../OpenCSM/trunk/data/basic/design0f.csm ../../OpenCSM/trunk/data/basic/design0g.csm ../../OpenCSM/trunk/data/basic/design0h.csm ../../OpenCSM/trunk/data/basic/design0i.csm ../../OpenCSM/trunk/data/basic/design0j.csm ../../OpenCSM/trunk/data/basic/design0k.csm ../../OpenCSM/trunk/data/basic/design0m.csm ../../OpenCSM/trunk/data/basic/design0n1.csm ../../OpenCSM/trunk/data/basic/design0n2.csm ../../OpenCSM/trunk/data/basic/design0o1.csm ../../OpenCSM/trunk/data/basic/design0o2.csm ../../OpenCSM/trunk/data/basic/design0o3.csm ../../OpenCSM/trunk/data/basic/design0o4.csm ../../OpenCSM/trunk/data/basic/design0p.csm ../../OpenCSM/trunk/data/basic/design0q.csm ../../OpenCSM/trunk/data/basic/design0r.csm ../../OpenCSM/trunk/data/basic/design0s.csm ../../OpenCSM/trunk/data/basic/design0t1.csm ../../OpenCSM/trunk/data/basic/design0t2.csm ../../OpenCSM/trunk/data/basic/design0t3.csm ../../OpenCSM/trunk/data/basic/design0u.csm ../../OpenCSM/trunk/data/basic/design0v.csm ../../OpenCSM/trunk/data/basic/design0w.csm ../../OpenCSM/trunk/data/basic/design1a.csm ../../OpenCSM/trunk/data/basic/design1b.csm ../../OpenCSM/trunk/data/basic/design2.csm ../../OpenCSM/trunk/data/basic/design3.csm ../../OpenCSM/trunk/data/basic/design4.csm ../../OpenCSM/trunk/data/basic/design5.csm ../../OpenCSM/trunk/data/basic/design6.csm ../../OpenCSM/trunk/data/basic/design7.csm ../../OpenCSM/trunk/data/basic/design8a.csm ../../OpenCSM/trunk/data/basic/design8b.csm ../../OpenCSM/trunk/data/basic/design8c.csm ../../OpenCSM/trunk/data/basic/design8.csm ../../OpenCSM/trunk/data/basic/design8d.csm ../../OpenCSM/trunk/data/basic/design9.csm ../../OpenCSM/trunk/data/basic/designA.csm ../../OpenCSM/trunk/data/basic/designB1.csm ../../OpenCSM/trunk/data/basic/designB2.csm ../../OpenCSM/trunk/data/basic/designB3.csm ../../OpenCSM/trunk/data/basic/designB4.csm ../../OpenCSM/trunk/data/basic/designB5.csm ../../OpenCSM/trunk/data/basic/designC0.csm ../../OpenCSM/trunk/data/basic/designC1a.csm ../../OpenCSM/trunk/data/basic/designC1b.csm ../../OpenCSM/trunk/data/basic/designC2a.csm ../../OpenCSM/trunk/data/basic/designC2b.csm ../../OpenCSM/trunk/data/basic/designC3a.csm ../../OpenCSM/trunk/data/basic/designC3b.csm ../../OpenCSM/trunk/data/basic/designC4a.csm ../../OpenCSM/trunk/data/basic/designC4b.csm ../../OpenCSM/trunk/data/basic/designC5a.csm ../../OpenCSM/trunk/data/basic/designC5b.csm ../../OpenCSM/trunk/data/basic/designC6a.csm ../../OpenCSM/trunk/data/basic/designC6b.csm ../../OpenCSM/trunk/data/basic/designD0a.csm ../../OpenCSM/trunk/data/basic/designD0b.csm ../../OpenCSM/trunk/data/basic/designD0c.csm ../../OpenCSM/trunk/data/basic/designD1a.csm ../../OpenCSM/trunk/data/basic/designD1b.csm ../../OpenCSM/trunk/data/basic/designD1c.csm ../../OpenCSM/trunk/data/basic/designD2a.csm ../../OpenCSM/trunk/data/basic/designD2b.csm ../../OpenCSM/trunk/data/basic/designD2c.csm ../../OpenCSM/trunk/data/basic/designD3a.csm ../../OpenCSM/trunk/data/basic/designD3b.csm ../../OpenCSM/trunk/data/basic/designD3c.csm ../../OpenCSM/trunk/data/basic/designD4a.csm ../../OpenCSM/trunk/data/basic/designD4b.csm ../../OpenCSM/trunk/data/basic/designD4c.csm ../../OpenCSM/trunk/data/basic/designD5a.csm ../../OpenCSM/trunk/data/basic/designD5b.csm ../../OpenCSM/trunk/data/basic/designD5c.csm ../../OpenCSM/trunk/data/basic/designD6a0.csm ../../OpenCSM/trunk/data/basic/designD6a1.csm ../../OpenCSM/trunk/data/basic/designD6a2.csm ../../OpenCSM/trunk/data/basic/designD6b0.csm ../../OpenCSM/trunk/data/basic/designD6b1.csm ../../OpenCSM/trunk/data/basic/designD6b2.csm ../../OpenCSM/trunk/data/basic/designD6c0.csm ../../OpenCSM/trunk/data/basic/designD6c1.csm ../../OpenCSM/trunk/data/basic/designD6c2.csm ../../OpenCSM/trunk/data/basic/designE1.csm ../../OpenCSM/trunk/data/basic/designE2.csm ../../OpenCSM/trunk/data/basic/designE3.csm ../../OpenCSM/trunk/data/basic/designE4.csm ../../OpenCSM/trunk/data/basic/designE5.csm ../../OpenCSM/trunk/data/basic/designE6.csm ../../OpenCSM/trunk/data/basic/designE7.csm ../../OpenCSM/trunk/data/basic/designE8.csm ../../OpenCSM/trunk/data/basic/designE9.csm ../../OpenCSM/trunk/data/basic/designEa.csm ../../OpenCSM/trunk/data/basic/designEb.csm ../../OpenCSM/trunk/data/basic/designF0bb.csm ../../OpenCSM/trunk/data/basic/designF1bb.csm ../../OpenCSM/trunk/data/basic/designF1rr.csm ../../OpenCSM/trunk/data/basic/designF1rs.csm ../../OpenCSM/trunk/data/basic/designF1sr.csm ../../OpenCSM/trunk/data/basic/designF1ss.csm ../../OpenCSM/trunk/data/basic/designF2bb.csm ../../OpenCSM/trunk/data/basic/designF2rr.csm ../../OpenCSM/trunk/data/basic/designF2rs.csm ../../OpenCSM/trunk/data/basic/designF2sr.csm ../../OpenCSM/trunk/data/basic/designF2ss.csm ../../OpenCSM/trunk/data/basic/designG0.csm ../../OpenCSM/trunk/data/basic/designG1.csm ../../OpenCSM/trunk/data/basic/designG2.csm ../../OpenCSM/trunk/data/basic/designG3.csm ../../OpenCSM/trunk/data/basic/designG4.csm ../../OpenCSM/trunk/data/basic/designG5.csm ../../OpenCSM/trunk/data/basic/designG6.csm ../../OpenCSM/trunk/data/basic/designG7.csm ../../OpenCSM/trunk/data/basic/designG8.csm ../../OpenCSM/trunk/data/basic/designG9.csm ../../OpenCSM/trunk/data/basic/designGA.csm ../../OpenCSM/trunk/data/basic/designGB.csm ../../OpenCSM/trunk/data/basic/designH1.csm ../../OpenCSM/trunk/data/basic/designH2.csm ../../OpenCSM/trunk/data/basic/designH3.csm ../../OpenCSM/trunk/data/basic/designH4.csm ../../OpenCSM/trunk/data/basic/designI1.csm ../../OpenCSM/trunk/data/basic/designI2.csm ../../OpenCSM/trunk/data/basic/designI3.csm ../../OpenCSM/trunk/data/basic/designI4.csm ../../OpenCSM/trunk/data/basic/designJ1a.csm ../../OpenCSM/trunk/data/basic/designJ1b.csm ../../OpenCSM/trunk/data/basic/designJ1c.csm ../../OpenCSM/trunk/data/basic/designJ1d.csm ../../OpenCSM/trunk/data/basic/designJ2a.csm ../../OpenCSM/trunk/data/basic/designJ2b.csm ../../OpenCSM/trunk/data/basic/designJ3a.csm ../../OpenCSM/trunk/data/basic/designJ3b.csm ../../OpenCSM/trunk/data/basic/designJ4a.csm ../../OpenCSM/trunk/data/basic/designJ4b.csm ../../OpenCSM/trunk/data/basic/designJ5.csm ../../OpenCSM/trunk/data/basic/designK0.csm ../../OpenCSM/trunk/data/basic/designK1.csm ../../OpenCSM/trunk/data/basic/designK2.csm ../../OpenCSM/trunk/data/basic/designL00.csm ../../OpenCSM/trunk/data/basic/designL01.csm ../../OpenCSM/trunk/data/basic/designL10.csm ../../OpenCSM/trunk/data/basic/designL11.csm ../../OpenCSM/trunk/data/basic/designL12.csm ../../OpenCSM/trunk/data/basic/designL20.csm ../../OpenCSM/trunk/data/basic/designL21.csm ../../OpenCSM/trunk/data/basic/designL22.csm ../../OpenCSM/trunk/data/basic/designL30.csm ../../OpenCSM/trunk/data/basic/designL31.csm ../../OpenCSM/trunk/data/basic/designL32.csm ../../OpenCSM/trunk/data/basic/designL33.csm ../../OpenCSM/trunk/data/basic/designL34.csm ../../OpenCSM/trunk/data/basic/designL40.csm ../../OpenCSM/trunk/data/basic/designL41.csm ../../OpenCSM/trunk/data/basic/designL42.csm ../../OpenCSM/trunk/data/basic/designM0.csm ../../OpenCSM/trunk/data/basic/designM1.csm ../../OpenCSM/trunk/data/basic/designM2.csm ../../OpenCSM/trunk/data/basic/designM3.csm ../../OpenCSM/trunk/data/basic/designM4.csm ../../OpenCSM/trunk/data/basic/designN1.csm ../../OpenCSM/trunk/data/basic/designN2.csm ../../OpenCSM/trunk/data/basic/designP0a.csm ../../OpenCSM/trunk/data/basic/designP0b.csm ../../OpenCSM/trunk/data/basic/designP0c.csm ../../OpenCSM/trunk/data/basic/designP0d.csm ../../OpenCSM/trunk/data/basic/designP1a.csm ../../OpenCSM/trunk/data/basic/designP1b.csm ../../OpenCSM/trunk/data/basic/designP1c.csm ../../OpenCSM/trunk/data/basic/designP1d.csm ../../OpenCSM/trunk/data/basic/designP2a.csm ../../OpenCSM/trunk/data/basic/designP2b.csm ../../OpenCSM/trunk/data/basic/designP2c.csm ../../OpenCSM/trunk/data/basic/designP2d.csm ../../OpenCSM/trunk/data/basic/designP3a.csm ../../OpenCSM/trunk/data/basic/designP3b.csm ../../OpenCSM/trunk/data/basic/designP3c.csm ../../OpenCSM/trunk/data/basic/designP3d.csm ../../OpenCSM/trunk/data/basic/designP4a.csm ../../OpenCSM/trunk/data/basic/designP4b.csm ../../OpenCSM/trunk/data/basic/designP4c.csm ../../OpenCSM/trunk/data/basic/designP4d.csm ../../OpenCSM/trunk/data/basic/designP5a.csm ../../OpenCSM/trunk/data/basic/designP5b.csm ../../OpenCSM/trunk/data/basic/designQ1.csm ../../OpenCSM/trunk/data/basic/designQ2.csm ../../OpenCSM/trunk/data/basic/designR0a.csm ../../OpenCSM/trunk/data/basic/designR0b.csm ../../OpenCSM/trunk/data/basic/designR0c.csm ../../OpenCSM/trunk/data/basic/designR0d.csm ../../OpenCSM/trunk/data/basic/designR0e.csm ../../OpenCSM/trunk/data/basic/designR1a.csm ../../OpenCSM/trunk/data/basic/designR1b.csm ../../OpenCSM/trunk/data/basic/designR1c.csm ../../OpenCSM/trunk/data/basic/designR1d.csm ../../OpenCSM/trunk/data/basic/designR1e.csm ../../OpenCSM/trunk/data/basic/designR2a.csm ../../OpenCSM/trunk/data/basic/designR2b.csm ../../OpenCSM/trunk/data/basic/designR2c.csm ../../OpenCSM/trunk/data/basic/designR2d.csm ../../OpenCSM/trunk/data/basic/designR2e.csm ../../OpenCSM/trunk/data/basic/designR3a.csm ../../OpenCSM/trunk/data/basic/designR3b.csm ../../OpenCSM/trunk/data/basic/designR3c.csm ../../OpenCSM/trunk/data/basic/designR3d.csm ../../OpenCSM/trunk/data/basic/designR3e.csm ../../OpenCSM/trunk/data/basic/designS1.csm ../../OpenCSM/trunk/data/basic/designS2.csm ../../OpenCSM/trunk/data/basic/designS3.csm ../../OpenCSM/trunk/data/basic/designT1.csm ../../OpenCSM/trunk/data/basic/designT2.csm ../../OpenCSM/trunk/data/basic/designU1a.csm ../../OpenCSM/trunk/data/basic/designU1b.csm ../../OpenCSM/trunk/data/basic/designU1c.csm ../../OpenCSM/trunk/data/basic/designU2a.csm ../../OpenCSM/trunk/data/basic/designU2b.csm ../../OpenCSM/trunk/data/basic/designU2c.csm ../../OpenCSM/trunk/data/basic/designV1.csm ../../OpenCSM/trunk/data/basic/designW0.csm ../../OpenCSM/trunk/data/basic/designW1.csm ../../OpenCSM/trunk/data/basic/designW2.csm ../../OpenCSM/trunk/data/basic/designW3.csm ../../OpenCSM/trunk/data/basic/designW4.csm ../../OpenCSM/trunk/data/basic/designW5.csm ../../OpenCSM/trunk/data/basic/designX1.csm ../../OpenCSM/trunk/data/basic/designX2.csm ../../OpenCSM/trunk/data/basic/designX3.csm ../../OpenCSM/trunk/data/basic/designX4.csm ../../OpenCSM/trunk/data/basic/designX5.csm ../../OpenCSM/trunk/data/basic/designX6.csm ../../OpenCSM/trunk/data/basic/designX7.csm ../../OpenCSM/trunk/data/basic/designX8.csm ../../OpenCSM/trunk/data/basic/designY0.csm ../../OpenCSM/trunk/data/basic/designY1.csm ../../OpenCSM/trunk/data/basic/designY2.csm ../../OpenCSM/trunk/data/basic/designY3.csm ../../OpenCSM/trunk/data/basic/designY4.csm ../../OpenCSM/trunk/data/basic/designYa.csm ../../OpenCSM/trunk/data/basic/designYb.csm ../../OpenCSM/trunk/data/basic/designYc.csm ../../OpenCSM/trunk/data/basic/designYd.csm ../../OpenCSM/trunk/data/basic/designYe.csm ../../OpenCSM/trunk/data/basic/designYf.csm ../../OpenCSM/trunk/data/basic/designYg.csm ../../OpenCSM/trunk/data/basic/designYh.csm ../../OpenCSM/trunk/data/basic/designYi.csm ../../OpenCSM/trunk/data/basic/designYj.csm ../../OpenCSM/trunk/data/basic/designYk.csm ../../OpenCSM/trunk/data/basic/designYl.csm ../../OpenCSM/trunk/data/basic/designYm.csm ../../OpenCSM/trunk/data/basic/designYn.csm ../../OpenCSM/trunk/data/basic/designYo.csm ../../OpenCSM/trunk/data/basic/designYp.csm ../../OpenCSM/trunk/data/basic/designYq.csm ../../OpenCSM/trunk/data/basic/designYr.csm ../../OpenCSM/trunk/data/basic/designYs.csm ../../OpenCSM/trunk/data/basic/designYt.csm ../../OpenCSM/trunk/data/basic/designYu.csm ../../OpenCSM/trunk/data/basic/designYv.csm ../../OpenCSM/trunk/data/basic/designYw.csm ../../OpenCSM/trunk/data/basic/designYx.csm ../../OpenCSM/trunk/data/basic/designYy.csm ../../OpenCSM/trunk/data/basic/designYz.csm ../../OpenCSM/trunk/data/basic/designZ1.csm ../../OpenCSM/trunk/data/basic/designZ2.csm ../../OpenCSM/trunk/data/basic/designZ3.csm ../../OpenCSM/trunk/data/basic/designZ4.csm ../../OpenCSM/trunk/data/basic/designZ5.csm ../../OpenCSM/trunk/data/basic/designZ6.csm ++ export SENS=-geom ++ SENS=-geom ++ source /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/JenkinsESP/splitCSMFiles.sh +++ [[ -n '' ]] +++ cat csmFiles.txt ++ CSMFILES='../../OpenCSM/trunk/data/basic/design0a.csm ../../OpenCSM/trunk/data/basic/design0b.csm ../../OpenCSM/trunk/data/basic/design0c.csm ../../OpenCSM/trunk/data/basic/design0.csm ../../OpenCSM/trunk/data/basic/design0d.csm ../../OpenCSM/trunk/data/basic/design0e.csm ../../OpenCSM/trunk/data/basic/design0f.csm ../../OpenCSM/trunk/data/basic/design0g.csm ../../OpenCSM/trunk/data/basic/design0h.csm ../../OpenCSM/trunk/data/basic/design0i.csm ../../OpenCSM/trunk/data/basic/design0j.csm ../../OpenCSM/trunk/data/basic/design0k.csm ../../OpenCSM/trunk/data/basic/design0m.csm ../../OpenCSM/trunk/data/basic/design0n1.csm ../../OpenCSM/trunk/data/basic/design0n2.csm ../../OpenCSM/trunk/data/basic/design0o1.csm ../../OpenCSM/trunk/data/basic/design0o2.csm ../../OpenCSM/trunk/data/basic/design0o3.csm ../../OpenCSM/trunk/data/basic/design0o4.csm ../../OpenCSM/trunk/data/basic/design0p.csm ../../OpenCSM/trunk/data/basic/design0q.csm ../../OpenCSM/trunk/data/basic/design0r.csm ../../OpenCSM/trunk/data/basic/design0s.csm ../../OpenCSM/trunk/data/basic/design0t1.csm ../../OpenCSM/trunk/data/basic/design0t2.csm ../../OpenCSM/trunk/data/basic/design0t3.csm ../../OpenCSM/trunk/data/basic/design0u.csm ../../OpenCSM/trunk/data/basic/design0v.csm ../../OpenCSM/trunk/data/basic/design0w.csm ../../OpenCSM/trunk/data/basic/design1a.csm ../../OpenCSM/trunk/data/basic/design1b.csm ../../OpenCSM/trunk/data/basic/design2.csm ../../OpenCSM/trunk/data/basic/design3.csm ../../OpenCSM/trunk/data/basic/design4.csm ../../OpenCSM/trunk/data/basic/design5.csm ../../OpenCSM/trunk/data/basic/design6.csm ../../OpenCSM/trunk/data/basic/design7.csm ../../OpenCSM/trunk/data/basic/design8a.csm ../../OpenCSM/trunk/data/basic/design8b.csm ../../OpenCSM/trunk/data/basic/design8c.csm ../../OpenCSM/trunk/data/basic/design8.csm ../../OpenCSM/trunk/data/basic/design8d.csm ../../OpenCSM/trunk/data/basic/design9.csm ../../OpenCSM/trunk/data/basic/designA.csm ../../OpenCSM/trunk/data/basic/designB1.csm ../../OpenCSM/trunk/data/basic/designB2.csm ../../OpenCSM/trunk/data/basic/designB3.csm ../../OpenCSM/trunk/data/basic/designB4.csm ../../OpenCSM/trunk/data/basic/designB5.csm ../../OpenCSM/trunk/data/basic/designC0.csm ../../OpenCSM/trunk/data/basic/designC1a.csm ../../OpenCSM/trunk/data/basic/designC1b.csm ../../OpenCSM/trunk/data/basic/designC2a.csm ../../OpenCSM/trunk/data/basic/designC2b.csm ../../OpenCSM/trunk/data/basic/designC3a.csm ../../OpenCSM/trunk/data/basic/designC3b.csm ../../OpenCSM/trunk/data/basic/designC4a.csm ../../OpenCSM/trunk/data/basic/designC4b.csm ../../OpenCSM/trunk/data/basic/designC5a.csm ../../OpenCSM/trunk/data/basic/designC5b.csm ../../OpenCSM/trunk/data/basic/designC6a.csm ../../OpenCSM/trunk/data/basic/designC6b.csm ../../OpenCSM/trunk/data/basic/designD0a.csm ../../OpenCSM/trunk/data/basic/designD0b.csm ../../OpenCSM/trunk/data/basic/designD0c.csm ../../OpenCSM/trunk/data/basic/designD1a.csm ../../OpenCSM/trunk/data/basic/designD1b.csm ../../OpenCSM/trunk/data/basic/designD1c.csm ../../OpenCSM/trunk/data/basic/designD2a.csm ../../OpenCSM/trunk/data/basic/designD2b.csm ../../OpenCSM/trunk/data/basic/designD2c.csm ../../OpenCSM/trunk/data/basic/designD3a.csm ../../OpenCSM/trunk/data/basic/designD3b.csm ../../OpenCSM/trunk/data/basic/designD3c.csm ../../OpenCSM/trunk/data/basic/designD4a.csm ../../OpenCSM/trunk/data/basic/designD4b.csm ../../OpenCSM/trunk/data/basic/designD4c.csm ../../OpenCSM/trunk/data/basic/designD5a.csm ../../OpenCSM/trunk/data/basic/designD5b.csm ../../OpenCSM/trunk/data/basic/designD5c.csm ../../OpenCSM/trunk/data/basic/designD6a0.csm ../../OpenCSM/trunk/data/basic/designD6a1.csm ../../OpenCSM/trunk/data/basic/designD6a2.csm ../../OpenCSM/trunk/data/basic/designD6b0.csm ../../OpenCSM/trunk/data/basic/designD6b1.csm ../../OpenCSM/trunk/data/basic/designD6b2.csm ../../OpenCSM/trunk/data/basic/designD6c0.csm ../../OpenCSM/trunk/data/basic/designD6c1.csm ../../OpenCSM/trunk/data/basic/designD6c2.csm ../../OpenCSM/trunk/data/basic/designE1.csm ../../OpenCSM/trunk/data/basic/designE2.csm ../../OpenCSM/trunk/data/basic/designE3.csm ../../OpenCSM/trunk/data/basic/designE4.csm ../../OpenCSM/trunk/data/basic/designE5.csm ../../OpenCSM/trunk/data/basic/designE6.csm ../../OpenCSM/trunk/data/basic/designE7.csm ../../OpenCSM/trunk/data/basic/designE8.csm ../../OpenCSM/trunk/data/basic/designE9.csm ../../OpenCSM/trunk/data/basic/designEa.csm ../../OpenCSM/trunk/data/basic/designEb.csm ../../OpenCSM/trunk/data/basic/designF0bb.csm ../../OpenCSM/trunk/data/basic/designF1bb.csm ../../OpenCSM/trunk/data/basic/designF1rr.csm ../../OpenCSM/trunk/data/basic/designF1rs.csm ../../OpenCSM/trunk/data/basic/designF1sr.csm ../../OpenCSM/trunk/data/basic/designF1ss.csm ../../OpenCSM/trunk/data/basic/designF2bb.csm ../../OpenCSM/trunk/data/basic/designF2rr.csm ../../OpenCSM/trunk/data/basic/designF2rs.csm ../../OpenCSM/trunk/data/basic/designF2sr.csm ../../OpenCSM/trunk/data/basic/designF2ss.csm ../../OpenCSM/trunk/data/basic/designG0.csm ../../OpenCSM/trunk/data/basic/designG1.csm ../../OpenCSM/trunk/data/basic/designG2.csm ../../OpenCSM/trunk/data/basic/designG3.csm ../../OpenCSM/trunk/data/basic/designG4.csm ../../OpenCSM/trunk/data/basic/designG5.csm ../../OpenCSM/trunk/data/basic/designG6.csm ../../OpenCSM/trunk/data/basic/designG7.csm ../../OpenCSM/trunk/data/basic/designG8.csm ../../OpenCSM/trunk/data/basic/designG9.csm ../../OpenCSM/trunk/data/basic/designGA.csm ../../OpenCSM/trunk/data/basic/designGB.csm ../../OpenCSM/trunk/data/basic/designH1.csm ../../OpenCSM/trunk/data/basic/designH2.csm ../../OpenCSM/trunk/data/basic/designH3.csm ../../OpenCSM/trunk/data/basic/designH4.csm ../../OpenCSM/trunk/data/basic/designI1.csm ../../OpenCSM/trunk/data/basic/designI2.csm ../../OpenCSM/trunk/data/basic/designI3.csm ../../OpenCSM/trunk/data/basic/designI4.csm ../../OpenCSM/trunk/data/basic/designJ1a.csm ../../OpenCSM/trunk/data/basic/designJ1b.csm ../../OpenCSM/trunk/data/basic/designJ1c.csm ../../OpenCSM/trunk/data/basic/designJ1d.csm ../../OpenCSM/trunk/data/basic/designJ2a.csm ../../OpenCSM/trunk/data/basic/designJ2b.csm ../../OpenCSM/trunk/data/basic/designJ3a.csm ../../OpenCSM/trunk/data/basic/designJ3b.csm ../../OpenCSM/trunk/data/basic/designJ4a.csm ../../OpenCSM/trunk/data/basic/designJ4b.csm ../../OpenCSM/trunk/data/basic/designJ5.csm ../../OpenCSM/trunk/data/basic/designK0.csm ../../OpenCSM/trunk/data/basic/designK1.csm ../../OpenCSM/trunk/data/basic/designK2.csm ../../OpenCSM/trunk/data/basic/designL00.csm ../../OpenCSM/trunk/data/basic/designL01.csm ../../OpenCSM/trunk/data/basic/designL10.csm ../../OpenCSM/trunk/data/basic/designL11.csm ../../OpenCSM/trunk/data/basic/designL12.csm ../../OpenCSM/trunk/data/basic/designL20.csm ../../OpenCSM/trunk/data/basic/designL21.csm ../../OpenCSM/trunk/data/basic/designL22.csm ../../OpenCSM/trunk/data/basic/designL30.csm ../../OpenCSM/trunk/data/basic/designL31.csm ../../OpenCSM/trunk/data/basic/designL32.csm ../../OpenCSM/trunk/data/basic/designL33.csm ../../OpenCSM/trunk/data/basic/designL34.csm ../../OpenCSM/trunk/data/basic/designL40.csm ../../OpenCSM/trunk/data/basic/designL41.csm ../../OpenCSM/trunk/data/basic/designL42.csm ../../OpenCSM/trunk/data/basic/designM0.csm ../../OpenCSM/trunk/data/basic/designM1.csm ../../OpenCSM/trunk/data/basic/designM2.csm ../../OpenCSM/trunk/data/basic/designM3.csm ../../OpenCSM/trunk/data/basic/designM4.csm ../../OpenCSM/trunk/data/basic/designN1.csm ../../OpenCSM/trunk/data/basic/designN2.csm ../../OpenCSM/trunk/data/basic/designP0a.csm ../../OpenCSM/trunk/data/basic/designP0b.csm ../../OpenCSM/trunk/data/basic/designP0c.csm ../../OpenCSM/trunk/data/basic/designP0d.csm ../../OpenCSM/trunk/data/basic/designP1a.csm ../../OpenCSM/trunk/data/basic/designP1b.csm ../../OpenCSM/trunk/data/basic/designP1c.csm ../../OpenCSM/trunk/data/basic/designP1d.csm ../../OpenCSM/trunk/data/basic/designP2a.csm ../../OpenCSM/trunk/data/basic/designP2b.csm ../../OpenCSM/trunk/data/basic/designP2c.csm ../../OpenCSM/trunk/data/basic/designP2d.csm ../../OpenCSM/trunk/data/basic/designP3a.csm ../../OpenCSM/trunk/data/basic/designP3b.csm ../../OpenCSM/trunk/data/basic/designP3c.csm ../../OpenCSM/trunk/data/basic/designP3d.csm ../../OpenCSM/trunk/data/basic/designP4a.csm ../../OpenCSM/trunk/data/basic/designP4b.csm ../../OpenCSM/trunk/data/basic/designP4c.csm ../../OpenCSM/trunk/data/basic/designP4d.csm ../../OpenCSM/trunk/data/basic/designP5a.csm ../../OpenCSM/trunk/data/basic/designP5b.csm ../../OpenCSM/trunk/data/basic/designQ1.csm ../../OpenCSM/trunk/data/basic/designQ2.csm ../../OpenCSM/trunk/data/basic/designR0a.csm ../../OpenCSM/trunk/data/basic/designR0b.csm ../../OpenCSM/trunk/data/basic/designR0c.csm ../../OpenCSM/trunk/data/basic/designR0d.csm ../../OpenCSM/trunk/data/basic/designR0e.csm ../../OpenCSM/trunk/data/basic/designR1a.csm ../../OpenCSM/trunk/data/basic/designR1b.csm ../../OpenCSM/trunk/data/basic/designR1c.csm ../../OpenCSM/trunk/data/basic/designR1d.csm ../../OpenCSM/trunk/data/basic/designR1e.csm ../../OpenCSM/trunk/data/basic/designR2a.csm ../../OpenCSM/trunk/data/basic/designR2b.csm ../../OpenCSM/trunk/data/basic/designR2c.csm ../../OpenCSM/trunk/data/basic/designR2d.csm ../../OpenCSM/trunk/data/basic/designR2e.csm ../../OpenCSM/trunk/data/basic/designR3a.csm ../../OpenCSM/trunk/data/basic/designR3b.csm ../../OpenCSM/trunk/data/basic/designR3c.csm ../../OpenCSM/trunk/data/basic/designR3d.csm ../../OpenCSM/trunk/data/basic/designR3e.csm ../../OpenCSM/trunk/data/basic/designS1.csm ../../OpenCSM/trunk/data/basic/designS2.csm ../../OpenCSM/trunk/data/basic/designS3.csm ../../OpenCSM/trunk/data/basic/designT1.csm ../../OpenCSM/trunk/data/basic/designT2.csm ../../OpenCSM/trunk/data/basic/designU1a.csm ../../OpenCSM/trunk/data/basic/designU1b.csm ../../OpenCSM/trunk/data/basic/designU1c.csm ../../OpenCSM/trunk/data/basic/designU2a.csm ../../OpenCSM/trunk/data/basic/designU2b.csm ../../OpenCSM/trunk/data/basic/designU2c.csm ../../OpenCSM/trunk/data/basic/designV1.csm ../../OpenCSM/trunk/data/basic/designW0.csm ../../OpenCSM/trunk/data/basic/designW1.csm ../../OpenCSM/trunk/data/basic/designW2.csm ../../OpenCSM/trunk/data/basic/designW3.csm ../../OpenCSM/trunk/data/basic/designW4.csm ../../OpenCSM/trunk/data/basic/designW5.csm ../../OpenCSM/trunk/data/basic/designX1.csm ../../OpenCSM/trunk/data/basic/designX2.csm ../../OpenCSM/trunk/data/basic/designX3.csm ../../OpenCSM/trunk/data/basic/designX4.csm ../../OpenCSM/trunk/data/basic/designX5.csm ../../OpenCSM/trunk/data/basic/designX6.csm ../../OpenCSM/trunk/data/basic/designX7.csm ../../OpenCSM/trunk/data/basic/designX8.csm ../../OpenCSM/trunk/data/basic/designY0.csm ../../OpenCSM/trunk/data/basic/designY1.csm ../../OpenCSM/trunk/data/basic/designY2.csm ../../OpenCSM/trunk/data/basic/designY3.csm ../../OpenCSM/trunk/data/basic/designY4.csm ../../OpenCSM/trunk/data/basic/designYa.csm ../../OpenCSM/trunk/data/basic/designYb.csm ../../OpenCSM/trunk/data/basic/designYc.csm ../../OpenCSM/trunk/data/basic/designYd.csm ../../OpenCSM/trunk/data/basic/designYe.csm ../../OpenCSM/trunk/data/basic/designYf.csm ../../OpenCSM/trunk/data/basic/designYg.csm ../../OpenCSM/trunk/data/basic/designYh.csm ../../OpenCSM/trunk/data/basic/designYi.csm ../../OpenCSM/trunk/data/basic/designYj.csm ../../OpenCSM/trunk/data/basic/designYk.csm ../../OpenCSM/trunk/data/basic/designYl.csm ../../OpenCSM/trunk/data/basic/designYm.csm ../../OpenCSM/trunk/data/basic/designYn.csm ../../OpenCSM/trunk/data/basic/designYo.csm ../../OpenCSM/trunk/data/basic/designYp.csm ../../OpenCSM/trunk/data/basic/designYq.csm ../../OpenCSM/trunk/data/basic/designYr.csm ../../OpenCSM/trunk/data/basic/designYs.csm ../../OpenCSM/trunk/data/basic/designYt.csm ../../OpenCSM/trunk/data/basic/designYu.csm ../../OpenCSM/trunk/data/basic/designYv.csm ../../OpenCSM/trunk/data/basic/designYw.csm ../../OpenCSM/trunk/data/basic/designYx.csm ../../OpenCSM/trunk/data/basic/designYy.csm ../../OpenCSM/trunk/data/basic/designYz.csm ../../OpenCSM/trunk/data/basic/designZ1.csm ../../OpenCSM/trunk/data/basic/designZ2.csm ../../OpenCSM/trunk/data/basic/designZ3.csm ../../OpenCSM/trunk/data/basic/designZ4.csm ../../OpenCSM/trunk/data/basic/designZ5.csm ../../OpenCSM/trunk/data/basic/designZ6.csm' +++ wc -l +++ echo '../../OpenCSM/trunk/data/basic/design0a.csm ../../OpenCSM/trunk/data/basic/design0b.csm ../../OpenCSM/trunk/data/basic/design0c.csm ../../OpenCSM/trunk/data/basic/design0.csm ../../OpenCSM/trunk/data/basic/design0d.csm ../../OpenCSM/trunk/data/basic/design0e.csm ../../OpenCSM/trunk/data/basic/design0f.csm ../../OpenCSM/trunk/data/basic/design0g.csm ../../OpenCSM/trunk/data/basic/design0h.csm ../../OpenCSM/trunk/data/basic/design0i.csm ../../OpenCSM/trunk/data/basic/design0j.csm ../../OpenCSM/trunk/data/basic/design0k.csm ../../OpenCSM/trunk/data/basic/design0m.csm ../../OpenCSM/trunk/data/basic/design0n1.csm ../../OpenCSM/trunk/data/basic/design0n2.csm ../../OpenCSM/trunk/data/basic/design0o1.csm ../../OpenCSM/trunk/data/basic/design0o2.csm ../../OpenCSM/trunk/data/basic/design0o3.csm ../../OpenCSM/trunk/data/basic/design0o4.csm ../../OpenCSM/trunk/data/basic/design0p.csm ../../OpenCSM/trunk/data/basic/design0q.csm ../../OpenCSM/trunk/data/basic/design0r.csm ../../OpenCSM/trunk/data/basic/design0s.csm ../../OpenCSM/trunk/data/basic/design0t1.csm ../../OpenCSM/trunk/data/basic/design0t2.csm ../../OpenCSM/trunk/data/basic/design0t3.csm ../../OpenCSM/trunk/data/basic/design0u.csm ../../OpenCSM/trunk/data/basic/design0v.csm ../../OpenCSM/trunk/data/basic/design0w.csm ../../OpenCSM/trunk/data/basic/design1a.csm ../../OpenCSM/trunk/data/basic/design1b.csm ../../OpenCSM/trunk/data/basic/design2.csm ../../OpenCSM/trunk/data/basic/design3.csm ../../OpenCSM/trunk/data/basic/design4.csm ../../OpenCSM/trunk/data/basic/design5.csm ../../OpenCSM/trunk/data/basic/design6.csm ../../OpenCSM/trunk/data/basic/design7.csm ../../OpenCSM/trunk/data/basic/design8a.csm ../../OpenCSM/trunk/data/basic/design8b.csm ../../OpenCSM/trunk/data/basic/design8c.csm ../../OpenCSM/trunk/data/basic/design8.csm ../../OpenCSM/trunk/data/basic/design8d.csm ../../OpenCSM/trunk/data/basic/design9.csm ../../OpenCSM/trunk/data/basic/designA.csm ../../OpenCSM/trunk/data/basic/designB1.csm ../../OpenCSM/trunk/data/basic/designB2.csm ../../OpenCSM/trunk/data/basic/designB3.csm ../../OpenCSM/trunk/data/basic/designB4.csm ../../OpenCSM/trunk/data/basic/designB5.csm ../../OpenCSM/trunk/data/basic/designC0.csm ../../OpenCSM/trunk/data/basic/designC1a.csm ../../OpenCSM/trunk/data/basic/designC1b.csm ../../OpenCSM/trunk/data/basic/designC2a.csm ../../OpenCSM/trunk/data/basic/designC2b.csm ../../OpenCSM/trunk/data/basic/designC3a.csm ../../OpenCSM/trunk/data/basic/designC3b.csm ../../OpenCSM/trunk/data/basic/designC4a.csm ../../OpenCSM/trunk/data/basic/designC4b.csm ../../OpenCSM/trunk/data/basic/designC5a.csm ../../OpenCSM/trunk/data/basic/designC5b.csm ../../OpenCSM/trunk/data/basic/designC6a.csm ../../OpenCSM/trunk/data/basic/designC6b.csm ../../OpenCSM/trunk/data/basic/designD0a.csm ../../OpenCSM/trunk/data/basic/designD0b.csm ../../OpenCSM/trunk/data/basic/designD0c.csm ../../OpenCSM/trunk/data/basic/designD1a.csm ../../OpenCSM/trunk/data/basic/designD1b.csm ../../OpenCSM/trunk/data/basic/designD1c.csm ../../OpenCSM/trunk/data/basic/designD2a.csm ../../OpenCSM/trunk/data/basic/designD2b.csm ../../OpenCSM/trunk/data/basic/designD2c.csm ../../OpenCSM/trunk/data/basic/designD3a.csm ../../OpenCSM/trunk/data/basic/designD3b.csm ../../OpenCSM/trunk/data/basic/designD3c.csm ../../OpenCSM/trunk/data/basic/designD4a.csm ../../OpenCSM/trunk/data/basic/designD4b.csm ../../OpenCSM/trunk/data/basic/designD4c.csm ../../OpenCSM/trunk/data/basic/designD5a.csm ../../OpenCSM/trunk/data/basic/designD5b.csm ../../OpenCSM/trunk/data/basic/designD5c.csm ../../OpenCSM/trunk/data/basic/designD6a0.csm ../../OpenCSM/trunk/data/basic/designD6a1.csm ../../OpenCSM/trunk/data/basic/designD6a2.csm ../../OpenCSM/trunk/data/basic/designD6b0.csm ../../OpenCSM/trunk/data/basic/designD6b1.csm ../../OpenCSM/trunk/data/basic/designD6b2.csm ../../OpenCSM/trunk/data/basic/designD6c0.csm ../../OpenCSM/trunk/data/basic/designD6c1.csm ../../OpenCSM/trunk/data/basic/designD6c2.csm ../../OpenCSM/trunk/data/basic/designE1.csm ../../OpenCSM/trunk/data/basic/designE2.csm ../../OpenCSM/trunk/data/basic/designE3.csm ../../OpenCSM/trunk/data/basic/designE4.csm ../../OpenCSM/trunk/data/basic/designE5.csm ../../OpenCSM/trunk/data/basic/designE6.csm ../../OpenCSM/trunk/data/basic/designE7.csm ../../OpenCSM/trunk/data/basic/designE8.csm ../../OpenCSM/trunk/data/basic/designE9.csm ../../OpenCSM/trunk/data/basic/designEa.csm ../../OpenCSM/trunk/data/basic/designEb.csm ../../OpenCSM/trunk/data/basic/designF0bb.csm ../../OpenCSM/trunk/data/basic/designF1bb.csm ../../OpenCSM/trunk/data/basic/designF1rr.csm ../../OpenCSM/trunk/data/basic/designF1rs.csm ../../OpenCSM/trunk/data/basic/designF1sr.csm ../../OpenCSM/trunk/data/basic/designF1ss.csm ../../OpenCSM/trunk/data/basic/designF2bb.csm ../../OpenCSM/trunk/data/basic/designF2rr.csm ../../OpenCSM/trunk/data/basic/designF2rs.csm ../../OpenCSM/trunk/data/basic/designF2sr.csm ../../OpenCSM/trunk/data/basic/designF2ss.csm ../../OpenCSM/trunk/data/basic/designG0.csm ../../OpenCSM/trunk/data/basic/designG1.csm ../../OpenCSM/trunk/data/basic/designG2.csm ../../OpenCSM/trunk/data/basic/designG3.csm ../../OpenCSM/trunk/data/basic/designG4.csm ../../OpenCSM/trunk/data/basic/designG5.csm ../../OpenCSM/trunk/data/basic/designG6.csm ../../OpenCSM/trunk/data/basic/designG7.csm ../../OpenCSM/trunk/data/basic/designG8.csm ../../OpenCSM/trunk/data/basic/designG9.csm ../../OpenCSM/trunk/data/basic/designGA.csm ../../OpenCSM/trunk/data/basic/designGB.csm ../../OpenCSM/trunk/data/basic/designH1.csm ../../OpenCSM/trunk/data/basic/designH2.csm ../../OpenCSM/trunk/data/basic/designH3.csm ../../OpenCSM/trunk/data/basic/designH4.csm ../../OpenCSM/trunk/data/basic/designI1.csm ../../OpenCSM/trunk/data/basic/designI2.csm ../../OpenCSM/trunk/data/basic/designI3.csm ../../OpenCSM/trunk/data/basic/designI4.csm ../../OpenCSM/trunk/data/basic/designJ1a.csm ../../OpenCSM/trunk/data/basic/designJ1b.csm ../../OpenCSM/trunk/data/basic/designJ1c.csm ../../OpenCSM/trunk/data/basic/designJ1d.csm ../../OpenCSM/trunk/data/basic/designJ2a.csm ../../OpenCSM/trunk/data/basic/designJ2b.csm ../../OpenCSM/trunk/data/basic/designJ3a.csm ../../OpenCSM/trunk/data/basic/designJ3b.csm ../../OpenCSM/trunk/data/basic/designJ4a.csm ../../OpenCSM/trunk/data/basic/designJ4b.csm ../../OpenCSM/trunk/data/basic/designJ5.csm ../../OpenCSM/trunk/data/basic/designK0.csm ../../OpenCSM/trunk/data/basic/designK1.csm ../../OpenCSM/trunk/data/basic/designK2.csm ../../OpenCSM/trunk/data/basic/designL00.csm ../../OpenCSM/trunk/data/basic/designL01.csm ../../OpenCSM/trunk/data/basic/designL10.csm ../../OpenCSM/trunk/data/basic/designL11.csm ../../OpenCSM/trunk/data/basic/designL12.csm ../../OpenCSM/trunk/data/basic/designL20.csm ../../OpenCSM/trunk/data/basic/designL21.csm ../../OpenCSM/trunk/data/basic/designL22.csm ../../OpenCSM/trunk/data/basic/designL30.csm ../../OpenCSM/trunk/data/basic/designL31.csm ../../OpenCSM/trunk/data/basic/designL32.csm ../../OpenCSM/trunk/data/basic/designL33.csm ../../OpenCSM/trunk/data/basic/designL34.csm ../../OpenCSM/trunk/data/basic/designL40.csm ../../OpenCSM/trunk/data/basic/designL41.csm ../../OpenCSM/trunk/data/basic/designL42.csm ../../OpenCSM/trunk/data/basic/designM0.csm ../../OpenCSM/trunk/data/basic/designM1.csm ../../OpenCSM/trunk/data/basic/designM2.csm ../../OpenCSM/trunk/data/basic/designM3.csm ../../OpenCSM/trunk/data/basic/designM4.csm ../../OpenCSM/trunk/data/basic/designN1.csm ../../OpenCSM/trunk/data/basic/designN2.csm ../../OpenCSM/trunk/data/basic/designP0a.csm ../../OpenCSM/trunk/data/basic/designP0b.csm ../../OpenCSM/trunk/data/basic/designP0c.csm ../../OpenCSM/trunk/data/basic/designP0d.csm ../../OpenCSM/trunk/data/basic/designP1a.csm ../../OpenCSM/trunk/data/basic/designP1b.csm ../../OpenCSM/trunk/data/basic/designP1c.csm ../../OpenCSM/trunk/data/basic/designP1d.csm ../../OpenCSM/trunk/data/basic/designP2a.csm ../../OpenCSM/trunk/data/basic/designP2b.csm ../../OpenCSM/trunk/data/basic/designP2c.csm ../../OpenCSM/trunk/data/basic/designP2d.csm ../../OpenCSM/trunk/data/basic/designP3a.csm ../../OpenCSM/trunk/data/basic/designP3b.csm ../../OpenCSM/trunk/data/basic/designP3c.csm ../../OpenCSM/trunk/data/basic/designP3d.csm ../../OpenCSM/trunk/data/basic/designP4a.csm ../../OpenCSM/trunk/data/basic/designP4b.csm ../../OpenCSM/trunk/data/basic/designP4c.csm ../../OpenCSM/trunk/data/basic/designP4d.csm ../../OpenCSM/trunk/data/basic/designP5a.csm ../../OpenCSM/trunk/data/basic/designP5b.csm ../../OpenCSM/trunk/data/basic/designQ1.csm ../../OpenCSM/trunk/data/basic/designQ2.csm ../../OpenCSM/trunk/data/basic/designR0a.csm ../../OpenCSM/trunk/data/basic/designR0b.csm ../../OpenCSM/trunk/data/basic/designR0c.csm ../../OpenCSM/trunk/data/basic/designR0d.csm ../../OpenCSM/trunk/data/basic/designR0e.csm ../../OpenCSM/trunk/data/basic/designR1a.csm ../../OpenCSM/trunk/data/basic/designR1b.csm ../../OpenCSM/trunk/data/basic/designR1c.csm ../../OpenCSM/trunk/data/basic/designR1d.csm ../../OpenCSM/trunk/data/basic/designR1e.csm ../../OpenCSM/trunk/data/basic/designR2a.csm ../../OpenCSM/trunk/data/basic/designR2b.csm ../../OpenCSM/trunk/data/basic/designR2c.csm ../../OpenCSM/trunk/data/basic/designR2d.csm ../../OpenCSM/trunk/data/basic/designR2e.csm ../../OpenCSM/trunk/data/basic/designR3a.csm ../../OpenCSM/trunk/data/basic/designR3b.csm ../../OpenCSM/trunk/data/basic/designR3c.csm ../../OpenCSM/trunk/data/basic/designR3d.csm ../../OpenCSM/trunk/data/basic/designR3e.csm ../../OpenCSM/trunk/data/basic/designS1.csm ../../OpenCSM/trunk/data/basic/designS2.csm ../../OpenCSM/trunk/data/basic/designS3.csm ../../OpenCSM/trunk/data/basic/designT1.csm ../../OpenCSM/trunk/data/basic/designT2.csm ../../OpenCSM/trunk/data/basic/designU1a.csm ../../OpenCSM/trunk/data/basic/designU1b.csm ../../OpenCSM/trunk/data/basic/designU1c.csm ../../OpenCSM/trunk/data/basic/designU2a.csm ../../OpenCSM/trunk/data/basic/designU2b.csm ../../OpenCSM/trunk/data/basic/designU2c.csm ../../OpenCSM/trunk/data/basic/designV1.csm ../../OpenCSM/trunk/data/basic/designW0.csm ../../OpenCSM/trunk/data/basic/designW1.csm ../../OpenCSM/trunk/data/basic/designW2.csm ../../OpenCSM/trunk/data/basic/designW3.csm ../../OpenCSM/trunk/data/basic/designW4.csm ../../OpenCSM/trunk/data/basic/designW5.csm ../../OpenCSM/trunk/data/basic/designX1.csm ../../OpenCSM/trunk/data/basic/designX2.csm ../../OpenCSM/trunk/data/basic/designX3.csm ../../OpenCSM/trunk/data/basic/designX4.csm ../../OpenCSM/trunk/data/basic/designX5.csm ../../OpenCSM/trunk/data/basic/designX6.csm ../../OpenCSM/trunk/data/basic/designX7.csm ../../OpenCSM/trunk/data/basic/designX8.csm ../../OpenCSM/trunk/data/basic/designY0.csm ../../OpenCSM/trunk/data/basic/designY1.csm ../../OpenCSM/trunk/data/basic/designY2.csm ../../OpenCSM/trunk/data/basic/designY3.csm ../../OpenCSM/trunk/data/basic/designY4.csm ../../OpenCSM/trunk/data/basic/designYa.csm ../../OpenCSM/trunk/data/basic/designYb.csm ../../OpenCSM/trunk/data/basic/designYc.csm ../../OpenCSM/trunk/data/basic/designYd.csm ../../OpenCSM/trunk/data/basic/designYe.csm ../../OpenCSM/trunk/data/basic/designYf.csm ../../OpenCSM/trunk/data/basic/designYg.csm ../../OpenCSM/trunk/data/basic/designYh.csm ../../OpenCSM/trunk/data/basic/designYi.csm ../../OpenCSM/trunk/data/basic/designYj.csm ../../OpenCSM/trunk/data/basic/designYk.csm ../../OpenCSM/trunk/data/basic/designYl.csm ../../OpenCSM/trunk/data/basic/designYm.csm ../../OpenCSM/trunk/data/basic/designYn.csm ../../OpenCSM/trunk/data/basic/designYo.csm ../../OpenCSM/trunk/data/basic/designYp.csm ../../OpenCSM/trunk/data/basic/designYq.csm ../../OpenCSM/trunk/data/basic/designYr.csm ../../OpenCSM/trunk/data/basic/designYs.csm ../../OpenCSM/trunk/data/basic/designYt.csm ../../OpenCSM/trunk/data/basic/designYu.csm ../../OpenCSM/trunk/data/basic/designYv.csm ../../OpenCSM/trunk/data/basic/designYw.csm ../../OpenCSM/trunk/data/basic/designYx.csm ../../OpenCSM/trunk/data/basic/designYy.csm ../../OpenCSM/trunk/data/basic/designYz.csm ../../OpenCSM/trunk/data/basic/designZ1.csm ../../OpenCSM/trunk/data/basic/designZ2.csm ../../OpenCSM/trunk/data/basic/designZ3.csm ../../OpenCSM/trunk/data/basic/designZ4.csm ../../OpenCSM/trunk/data/basic/designZ5.csm ../../OpenCSM/trunk/data/basic/designZ6.csm' ++ TOTALCOUNT=275 ++ WIDTH=3 ++ N=0 ++ for i in $CSMFILES ++ echo -------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------- ++ N=1 ++ printf '( %3d / %3d )\n' 1 275 ( 1 / 275 ) ++ set -x ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "x1" for ibody=5 d(Face)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "x2" for ibody=5 d(Face)/d(x2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(x2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "x3" for ibody=5 d(Face)/d(x3) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(x3) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(x3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "x4" for ibody=5 d(Face)/d(x4) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x4) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x4) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "x5" for ibody=5 d(Face)/d(x5) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x5) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x5) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "y1" for ibody=5 d(Face)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "y2" for ibody=5 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.2403e-20) d(Node)/d(y2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "y3" for ibody=5 d(Face)/d(y3) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y3) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(y3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "y4" for ibody=5 d(Face)/d(y4) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y4) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(y4) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "y5" for ibody=5 d(Face)/d(y5) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y5) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y5) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "z1" for ibody=5 d(Face)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "z2" for ibody=5 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "z3" for ibody=5 d(Face)/d(z3) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(z3) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(z3) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.316 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m3.810s user 0m3.794s sys 0m0.401s ++ set +x -------------------------------------------------------------------------------------------------- ( 2 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "x1" for ibody=8 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.6248e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 6.1630e-21) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "x2" for ibody=8 d(Face)/d(x2) check complete with 0 total errors (errmax= 7.0500e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(x2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "x3" for ibody=8 d(Face)/d(x3) check complete with 0 total errors (errmax= 4.8634e-11) d(Edge)/d(x3) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(x3) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "y1" for ibody=8 d(Face)/d(y1) check complete with 0 total errors (errmax= 4.7683e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 2.2761e-20) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "y2" for ibody=8 d(Face)/d(y2) check complete with 0 total errors (errmax= 2.6248e-11) d(Edge)/d(y2) check complete with 0 total errors (errmax= 5.2094e-20) d(Node)/d(y2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "y3" for ibody=8 d(Face)/d(y3) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y3) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(y3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "depth" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "depth" for ibody=8 d(Face)/d(depth) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(depth) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(depth) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.065 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.042s user 0m0.760s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 3 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xbeg1" for ibody=3 d(Face)/d(xbeg1) check complete with 0 total errors (errmax= 4.1139e-11) d(Edge)/d(xbeg1) check complete with 0 total errors (errmax= 6.4341e-18) d(Node)/d(xbeg1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "ybeg1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "ybeg1" for ibody=3 d(Face)/d(ybeg1) check complete with 0 total errors (errmax= 4.2240e-11) d(Edge)/d(ybeg1) check complete with 0 total errors (errmax= 1.1147e-17) d(Node)/d(ybeg1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zbeg1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "zbeg1" for ibody=3 d(Face)/d(zbeg1) check complete with 0 total errors (errmax= 2.0450e-07) d(Edge)/d(zbeg1) check complete with 0 total errors (errmax= 2.0189e-11) d(Node)/d(zbeg1) check complete with 0 total errors (errmax= 7.4992e-07) ********************************************************* Starting geometric sensitivity wrt "xend1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xend1" for ibody=3 d(Face)/d(xend1) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xend1) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xend1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "rad1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "rad1" for ibody=3 d(Face)/d(rad1) check complete with 0 total errors (errmax= 1.9821e-08) d(Edge)/d(rad1) check complete with 0 total errors (errmax= 6.6151e-13) d(Node)/d(rad1) check complete with 0 total errors (errmax= 1.1996e-07) ********************************************************* Starting geometric sensitivity wrt "xbeg2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xbeg2" for ibody=3 d(Face)/d(xbeg2) check complete with 0 total errors (errmax= 5.9962e-11) d(Edge)/d(xbeg2) check complete with 0 total errors (errmax= 1.1616e-17) d(Node)/d(xbeg2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybeg2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "ybeg2" for ibody=3 d(Face)/d(ybeg2) check complete with 0 total errors (errmax= 6.4099e-11) d(Edge)/d(ybeg2) check complete with 0 total errors (errmax= 7.1780e-18) d(Node)/d(ybeg2) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "zbeg2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "zbeg2" for ibody=3 d(Face)/d(zbeg2) check complete with 0 total errors (errmax= 2.0450e-07) d(Edge)/d(zbeg2) check complete with 0 total errors (errmax= 2.0203e-11) d(Node)/d(zbeg2) check complete with 0 total errors (errmax= 7.4992e-07) ********************************************************* Starting geometric sensitivity wrt "yend2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "yend2" for ibody=3 d(Face)/d(yend2) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(yend2) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(yend2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "rad2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "rad2" for ibody=3 d(Face)/d(rad2) check complete with 0 total errors (errmax= 1.2512e-07) d(Edge)/d(rad2) check complete with 0 total errors (errmax= 9.9879e-12) d(Node)/d(rad2) check complete with 0 total errors (errmax= 7.4992e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.069 sec Sensitivity checks complete with 0 total errors (max geom err= 7.4992e-07) with 0 suppressions real 0m5.603s user 0m8.540s sys 0m0.722s ++ set +x -------------------------------------------------------------------------------------------------- ( 4 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xbase" for ibody=6 d(Face)/d(xbase) check complete with 0 total errors (errmax= 2.6066e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.5270e-17) d(Node)/d(xbase) check complete with 0 total errors (errmax= 5.6995e-10) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ybase" for ibody=6 d(Face)/d(ybase) check complete with 0 total errors (errmax= 4.5147e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.2255e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 8.9591e-10) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "zbase" for ibody=6 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.0954e-10) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.4550e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 9.0883e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xsize" for ibody=6 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.1176e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.5270e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.6995e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ysize" for ibody=6 d(Face)/d(ysize) check complete with 0 total errors (errmax= 2.7711e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 8.8933e-18) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.9591e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "zsize" for ibody=6 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.0476e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 6.7174e-18) d(Node)/d(zsize) check complete with 0 total errors (errmax= 3.3616e-10) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "dx" for ibody=6 d(Face)/d(dx) check complete with 0 total errors (errmax= 2.6066e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.5270e-17) d(Node)/d(dx) check complete with 0 total errors (errmax= 5.6995e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "dy" for ibody=6 d(Face)/d(dy) check complete with 0 total errors (errmax= 4.5147e-10) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.2255e-17) d(Node)/d(dy) check complete with 0 total errors (errmax= 8.9591e-10) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "dz" for ibody=6 d(Face)/d(dz) check complete with 0 total errors (errmax= 6.9419e-10) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.1858e-17) d(Node)/d(dz) check complete with 0 total errors (errmax= 8.8664e-10) ********************************************************* Starting geometric sensitivity wrt "rotx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "rotx" for ibody=6 d(Face)/d(rotx) check complete with 0 total errors (errmax= 7.7985e-10) d(Edge)/d(rotx) check complete with 0 total errors (errmax= 6.9771e-17) d(Node)/d(rotx) check complete with 0 total errors (errmax= 8.8683e-10) ********************************************************* Starting geometric sensitivity wrt "roty" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "roty" for ibody=6 d(Face)/d(roty) check complete with 0 total errors (errmax= 6.1302e-10) d(Edge)/d(roty) check complete with 0 total errors (errmax= 2.9022e-17) d(Node)/d(roty) check complete with 0 total errors (errmax= 6.3037e-10) ********************************************************* Starting geometric sensitivity wrt "rotz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "rotz" for ibody=6 d(Face)/d(rotz) check complete with 0 total errors (errmax= 1.2994e-09) d(Edge)/d(rotz) check complete with 0 total errors (errmax= 8.0114e-17) d(Node)/d(rotz) check complete with 0 total errors (errmax= 1.2383e-09) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "scale" for ibody=6 d(Face)/d(scale) check complete with 0 total errors (errmax= 4.3054e-10) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.2695e-17) d(Node)/d(scale) check complete with 0 total errors (errmax= 4.1971e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.024 sec Sensitivity checks complete with 0 total errors (max geom err= 1.2994e-09) with 0 suppressions real 0m1.110s user 0m0.571s sys 0m0.294s ++ set +x -------------------------------------------------------------------------------------------------- ( 5 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "xsize" for ibody=2 d(Face)/d(xsize) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xsize) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "ysize" for ibody=2 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "zsize" for ibody=2 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "scale" for ibody=2 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.5741e-18) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.8491e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.022 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8491e-10) with 0 suppressions real 0m0.897s user 0m0.519s sys 0m0.368s ++ set +x -------------------------------------------------------------------------------------------------- ( 6 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0e.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "camber" for ibody=4 d(Face)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.0716e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 8.1295e-09) ********************************************************* Starting geometric sensitivity wrt "thick" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "thick" for ibody=4 d(Face)/d(thick) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(thick) check complete with 0 total errors (errmax= 4.0192e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.7989e-11) ********************************************************* Starting geometric sensitivity wrt "xle" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xle" for ibody=4 d(Face)/d(xle) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xle) check complete with 0 total errors (errmax= 8.8860e-20) d(Node)/d(xle) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "yle" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "yle" for ibody=4 d(Face)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.1858e-20) d(Node)/d(yle) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "zle" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "zle" for ibody=4 d(Face)/d(zle) check complete with 0 total errors (errmax= 5.7740e-13) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.1706e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "chord" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "chord" for ibody=4 d(Face)/d(chord) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.2971e-19) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.3628e-10) ********************************************************* Starting geometric sensitivity wrt "alpha" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "alpha" for ibody=4 d(Face)/d(alpha) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(alpha) check complete with 0 total errors (errmax= 2.8982e-19) d(Node)/d(alpha) check complete with 0 total errors (errmax= 1.3970e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0716e-07) with 0 suppressions real 0m1.602s user 0m1.154s sys 0m0.351s ++ set +x -------------------------------------------------------------------------------------------------- ( 7 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0f.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "camber" for ibody=2 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.1737e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 8.1607e-09) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0501e-09) ********************************************************* Starting geometric sensitivity wrt "thick" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "thick" for ibody=2 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.4108e-05) d(Edge)/d(thick) check complete with 0 total errors (errmax= 9.9338e-09) d(Node)/d(thick) check complete with 0 total errors (errmax= 7.0996e-12) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "dx" for ibody=2 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.0900e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 4.5923e-19) d(Node)/d(dx) check complete with 0 total errors (errmax= 8.1098e-11) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "dy" for ibody=2 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.0837e-11) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.3390e-20) d(Node)/d(dy) check complete with 0 total errors (errmax= 2.3074e-11) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "dz" for ibody=2 d(Face)/d(dz) check complete with 0 total errors (errmax= 3.3710e-10) d(Edge)/d(dz) check complete with 0 total errors (errmax= 1.0938e-17) d(Node)/d(dz) check complete with 0 total errors (errmax= 3.3899e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.120 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4108e-05) with 0 suppressions real 0m1.671s user 0m1.947s sys 0m0.299s ++ set +x -------------------------------------------------------------------------------------------------- ( 8 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0g.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "xle[1,1]" for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 4.9413e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.1539e-18) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.1187e-10) ********************************************************* Starting geometric sensitivity wrt "xle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "xle[2,1]" for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 8.1742e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.0125e-18) d(Node)/d(xle) check complete with 0 total errors (errmax= 8.0427e-11) ********************************************************* Starting geometric sensitivity wrt "xle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "xle[3,1]" for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 8.0500e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.8956e-18) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "xle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "xle[4,1]" for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 8.9458e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.0027e-18) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "yle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "yle[1,1]" for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.9060e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.8439e-20) d(Node)/d(yle) check complete with 0 total errors (errmax= 2.5039e-19) ********************************************************* Starting geometric sensitivity wrt "yle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "yle[2,1]" for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 4.0977e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.8777e-19) d(Node)/d(yle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "yle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "yle[3,1]" for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 4.4991e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 7.1692e-19) d(Node)/d(yle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "yle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "yle[4,1]" for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 6.3600e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.0871e-18) d(Node)/d(yle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "zle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "zle[1,1]" for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.9060e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.4526e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 3.0389e-13) ********************************************************* Starting geometric sensitivity wrt "zle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "zle[2,1]" for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.0621e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.1853e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 3.0389e-13) ********************************************************* Starting geometric sensitivity wrt "zle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "zle[3,1]" for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.1941e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.4740e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 3.0389e-13) ********************************************************* Starting geometric sensitivity wrt "zle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "zle[4,1]" for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.0596e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.3684e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "twist[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "twist[1,1]" for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.8862e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 7.7604e-17) d(Node)/d(twist) check complete with 0 total errors (errmax= 2.4298e-10) ********************************************************* Starting geometric sensitivity wrt "twist[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "twist[2,1]" for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.5944e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 5.6996e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.3895e-10) ********************************************************* Starting geometric sensitivity wrt "twist[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "twist[3,1]" for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.2870e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 7.2674e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 8.2037e-12) ********************************************************* Starting geometric sensitivity wrt "twist[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "twist[4,1]" for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.2323e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.4781e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.9548e-11) ********************************************************* Starting geometric sensitivity wrt "chord[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "chord[1,1]" for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.3542e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.0074e-17) d(Node)/d(chord) check complete with 0 total errors (errmax= 8.8426e-11) ********************************************************* Starting geometric sensitivity wrt "chord[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "chord[2,1]" for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 8.6161e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.2648e-16) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.2454e-10) ********************************************************* Starting geometric sensitivity wrt "chord[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "chord[3,1]" for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 9.1136e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 7.8533e-16) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.0130e-10) ********************************************************* Starting geometric sensitivity wrt "chord[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "chord[4,1]" for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 8.4881e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 8.1623e-16) d(Node)/d(chord) check complete with 0 total errors (errmax= 8.3139e-11) ********************************************************* Starting geometric sensitivity wrt "thick[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "thick[1,1]" for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.3651e-03) d(Edge)/d(thick) check complete with 0 total errors (errmax= 6.4371e-10) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.5568e-10) ********************************************************* Starting geometric sensitivity wrt "thick[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "thick[2,1]" for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.4239e-03) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.6491e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 7.0341e-11) ********************************************************* Starting geometric sensitivity wrt "thick[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "thick[3,1]" for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.3913e-04) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.9717e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 6.4539e-11) ********************************************************* Starting geometric sensitivity wrt "thick[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "thick[4,1]" for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 5.2076e-05) d(Edge)/d(thick) check complete with 0 total errors (errmax= 6.6421e-09) d(Node)/d(thick) check complete with 0 total errors (errmax= 6.2155e-11) ********************************************************* Starting geometric sensitivity wrt "cambr[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "cambr[1,1]" for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 2.7395e-04) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 5.8283e-10) d(Node)/d(cambr) check complete with 0 total errors (errmax= 2.7984e-09) ********************************************************* Starting geometric sensitivity wrt "cambr[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "cambr[2,1]" for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 2.0332e-04) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 1.2540e-10) d(Node)/d(cambr) check complete with 0 total errors (errmax= 1.0129e-09) ********************************************************* Starting geometric sensitivity wrt "cambr[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "cambr[3,1]" for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 3.1978e-05) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 1.5507e-10) d(Node)/d(cambr) check complete with 0 total errors (errmax= 6.4234e-10) ********************************************************* Starting geometric sensitivity wrt "cambr[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "cambr[4,1]" for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 3.1407e-05) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 4.0996e-11) d(Node)/d(cambr) check complete with 0 total errors (errmax= 3.6357e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 60.435 sec Sensitivity checks complete with 10 total errors (max geom err= 1.4239e-03) with 0 suppressions real 1m48.749s user 1m43.856s sys 0m0.367s ++ set +x -------------------------------------------------------------------------------------------------- ( 9 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0h.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rx" for ibody=1 d(Face)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rx) check complete with 0 total errors (errmax= 3.6927e-19) d(Node)/d(rx) check complete with 0 total errors (errmax= 6.1232e-28) Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "rx" for ibody=2 d(Face)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "rx" for ibody=3 d(Face)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rx) check complete with 0 total errors (errmax= 4.7285e-19) d(Node)/d(rx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ry" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ry" for ibody=1 d(Face)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ry) check complete with 0 total errors (errmax= 8.3855e-19) d(Node)/d(ry) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "ry" for ibody=2 d(Face)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ry) check complete with 0 total errors (errmax= 2.0661e-18) d(Node)/d(ry) check complete with 0 total errors (errmax= 5.6319e-26) Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "ry" for ibody=3 d(Face)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "rz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rz" for ibody=1 d(Face)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "rz" for ibody=2 d(Face)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rz) check complete with 0 total errors (errmax= 2.4288e-18) d(Node)/d(rz) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "rz" for ibody=3 d(Face)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rz) check complete with 0 total errors (errmax= 5.2181e-19) d(Node)/d(rz) check complete with 0 total errors (errmax= 7.6541e-28) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.008 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.583s user 0m1.205s sys 0m0.303s ++ set +x -------------------------------------------------------------------------------------------------- ( 10 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0i.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "rx" for ibody=2 d(Face)/d(rx) check complete with 0 total errors (errmax= 6.3702e-11) d(Edge)/d(rx) check complete with 0 total errors (errmax= 3.6254e-19) d(Node)/d(rx) check complete with 0 total errors (errmax= 6.1232e-28) ********************************************************* Starting geometric sensitivity wrt "ry" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "ry" for ibody=2 d(Face)/d(ry) check complete with 0 total errors (errmax= 7.4177e-11) d(Edge)/d(ry) check complete with 0 total errors (errmax= 7.6644e-19) d(Node)/d(ry) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.0355e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.020 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m0.949s user 0m0.886s sys 0m0.325s ++ set +x -------------------------------------------------------------------------------------------------- ( 11 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0j.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[1,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 5.0989e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.0738e-19) d(Node)/d(xle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "xle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[2,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 6.1771e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 9.3210e-19) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "xle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[3,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 8.0817e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 4.1670e-19) d(Node)/d(xle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "xle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[4,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 6.6830e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 5.5253e-19) d(Node)/d(xle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "yle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[1,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 4.0347e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 9.2266e-21) d(Node)/d(yle) check complete with 0 total errors (errmax= 2.5039e-19) ********************************************************* Starting geometric sensitivity wrt "yle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[2,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 4.3545e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 9.0364e-20) d(Node)/d(yle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "yle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[3,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 4.3804e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.7992e-19) d(Node)/d(yle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "yle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[4,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 5.2603e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.8990e-18) d(Node)/d(yle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "zle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[1,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.0347e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.2128e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "zle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[2,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.1261e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.0692e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 3.0389e-13) ********************************************************* Starting geometric sensitivity wrt "zle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[3,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.1881e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 9.0494e-21) d(Node)/d(zle) check complete with 0 total errors (errmax= 3.0389e-13) ********************************************************* Starting geometric sensitivity wrt "zle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[4,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.0816e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.0758e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "twist[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[1,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.1361e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.3146e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 9.3592e-11) ********************************************************* Starting geometric sensitivity wrt "twist[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[2,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5988e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.7428e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 7.2542e-11) ********************************************************* Starting geometric sensitivity wrt "twist[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[3,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.1006e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.7160e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 3.9355e-11) ********************************************************* Starting geometric sensitivity wrt "twist[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[4,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.5267e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.6242e-18) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.1646e-11) ********************************************************* Starting geometric sensitivity wrt "chord[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[1,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.3198e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 4.6252e-14) d(Node)/d(chord) check complete with 0 total errors (errmax= 8.8524e-11) ********************************************************* Starting geometric sensitivity wrt "chord[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[2,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 8.6297e-09) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.8376e-14) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.3890e-10) ********************************************************* Starting geometric sensitivity wrt "chord[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[3,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 7.0615e-09) d(Edge)/d(chord) check complete with 0 total errors (errmax= 8.5693e-15) d(Node)/d(chord) check complete with 0 total errors (errmax= 7.0357e-11) ********************************************************* Starting geometric sensitivity wrt "chord[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[4,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.8534e-09) d(Edge)/d(chord) check complete with 0 total errors (errmax= 6.4032e-16) d(Node)/d(chord) check complete with 0 total errors (errmax= 9.5542e-11) ********************************************************* Starting geometric sensitivity wrt "thick[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[1,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 4.5854e-05) d(Edge)/d(thick) check complete with 0 total errors (errmax= 5.5794e-07) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.3299e-11) ********************************************************* Starting geometric sensitivity wrt "thick[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[2,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.3411e-05) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.3533e-07) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.2939e-10) ********************************************************* Starting geometric sensitivity wrt "thick[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[3,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.4102e-05) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.4170e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.4886e-10) ********************************************************* Starting geometric sensitivity wrt "thick[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[4,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.0900e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 8.0925e-10) d(Node)/d(thick) check complete with 0 total errors (errmax= 3.3328e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 11.992 sec Sensitivity checks complete with 0 total errors (max geom err= 4.5854e-05) with 0 suppressions real 0m23.880s user 0m21.512s sys 0m0.315s ++ set +x -------------------------------------------------------------------------------------------------- ( 12 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0k.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x1" for ibody=6 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.9808e-10) d(Edge)/d(x1) check complete with 0 total errors (errmax= 3.3918e-18) d(Node)/d(x1) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x1" for ibody=13 d(Face)/d(x1) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x1" for ibody=19 d(Face)/d(x1) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x2" for ibody=6 d(Face)/d(x2) check complete with 0 total errors (errmax= 2.5703e-10) d(Edge)/d(x2) check complete with 0 total errors (errmax= 9.2313e-18) d(Node)/d(x2) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x2" for ibody=13 d(Face)/d(x2) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x2" for ibody=19 d(Face)/d(x2) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x3" for ibody=6 d(Face)/d(x3) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x3) check complete with 0 total errors (errmax= 7.0541e-18) d(Node)/d(x3) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x3" for ibody=13 d(Face)/d(x3) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x3" for ibody=19 d(Face)/d(x3) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x4" for ibody=6 d(Face)/d(x4) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x4" for ibody=13 d(Face)/d(x4) check complete with 0 total errors (errmax= 9.7298e-11) d(Edge)/d(x4) check complete with 0 total errors (errmax= 2.2418e-19) d(Node)/d(x4) check complete with 0 total errors (errmax= 4.7497e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x4" for ibody=19 d(Face)/d(x4) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x5" for ibody=6 d(Face)/d(x5) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x5" for ibody=13 d(Face)/d(x5) check complete with 0 total errors (errmax= 7.9773e-11) d(Edge)/d(x5) check complete with 0 total errors (errmax= 5.7098e-19) d(Node)/d(x5) check complete with 0 total errors (errmax= 1.6602e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x5" for ibody=19 d(Face)/d(x5) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x6" for ibody=6 d(Face)/d(x6) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x6" for ibody=13 d(Face)/d(x6) check complete with 0 total errors (errmax= 7.4751e-11) d(Edge)/d(x6) check complete with 0 total errors (errmax= 1.1059e-18) d(Node)/d(x6) check complete with 0 total errors (errmax= 4.7497e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x6" for ibody=19 d(Face)/d(x6) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x7" for ibody=6 d(Face)/d(x7) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x7" for ibody=13 d(Face)/d(x7) check complete with 0 total errors (errmax= 9.9861e-11) d(Edge)/d(x7) check complete with 0 total errors (errmax= 1.2772e-19) d(Node)/d(x7) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x7" for ibody=19 d(Face)/d(x7) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x8" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x8" for ibody=6 d(Face)/d(x8) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x8" for ibody=13 d(Face)/d(x8) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x8" for ibody=19 d(Face)/d(x8) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x8) check complete with 0 total errors (errmax= 5.6523e-18) d(Node)/d(x8) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x9" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x9" for ibody=6 d(Face)/d(x9) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x9" for ibody=13 d(Face)/d(x9) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x9" for ibody=19 d(Face)/d(x9) check complete with 0 total errors (errmax= 2.6114e-10) d(Edge)/d(x9) check complete with 0 total errors (errmax= 2.0683e-17) d(Node)/d(x9) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x10" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "x10" for ibody=6 d(Face)/d(x10) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "x10" for ibody=13 d(Face)/d(x10) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "x10" for ibody=19 d(Face)/d(x10) check complete with 0 total errors (errmax= 2.9281e-10) d(Edge)/d(x10) check complete with 0 total errors (errmax= 6.3358e-18) d(Node)/d(x10) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y1" for ibody=6 d(Face)/d(y1) check complete with 0 total errors (errmax= 4.7841e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 2.7290e-31) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y1" for ibody=13 d(Face)/d(y1) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y1" for ibody=19 d(Face)/d(y1) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y2" for ibody=6 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.7040e-07) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.2722e-11) d(Node)/d(y2) check complete with 0 total errors (errmax= 6.1232e-28) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y2" for ibody=13 d(Face)/d(y2) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y2" for ibody=19 d(Face)/d(y2) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y3" for ibody=6 d(Face)/d(y3) check complete with 0 total errors (errmax= 1.7040e-07) d(Edge)/d(y3) check complete with 0 total errors (errmax= 1.2722e-11) d(Node)/d(y3) check complete with 0 total errors (errmax= 6.1232e-28) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y3" for ibody=13 d(Face)/d(y3) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y3" for ibody=19 d(Face)/d(y3) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y4" for ibody=6 d(Face)/d(y4) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y4" for ibody=13 d(Face)/d(y4) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y4) check complete with 0 total errors (errmax= 1.6640e-31) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y4" for ibody=19 d(Face)/d(y4) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y5" for ibody=6 d(Face)/d(y5) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y5" for ibody=13 d(Face)/d(y5) check complete with 0 total errors (errmax= 7.1419e-08) d(Edge)/d(y5) check complete with 0 total errors (errmax= 2.0666e-12) d(Node)/d(y5) check complete with 0 total errors (errmax= 2.8006e-26) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y5" for ibody=19 d(Face)/d(y5) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y6" for ibody=6 d(Face)/d(y6) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y6" for ibody=13 d(Face)/d(y6) check complete with 0 total errors (errmax= 7.1423e-08) d(Edge)/d(y6) check complete with 0 total errors (errmax= 2.0666e-12) d(Node)/d(y6) check complete with 0 total errors (errmax= 2.8006e-26) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y6" for ibody=19 d(Face)/d(y6) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y7" for ibody=6 d(Face)/d(y7) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y7" for ibody=13 d(Face)/d(y7) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y7) check complete with 0 total errors (errmax= 1.0496e-31) d(Node)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y7" for ibody=19 d(Face)/d(y7) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y8" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y8" for ibody=6 d(Face)/d(y8) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y8) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y8) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y8" for ibody=13 d(Face)/d(y8) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y8) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y8) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y8" for ibody=19 d(Face)/d(y8) check complete with 0 total errors (errmax= 1.7040e-07) d(Edge)/d(y8) check complete with 0 total errors (errmax= 1.2722e-11) d(Node)/d(y8) check complete with 0 total errors (errmax= 6.1232e-28) ********************************************************* Starting geometric sensitivity wrt "y9" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y9" for ibody=6 d(Face)/d(y9) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y9) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y9) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y9" for ibody=13 d(Face)/d(y9) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y9) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y9) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y9" for ibody=19 d(Face)/d(y9) check complete with 0 total errors (errmax= 1.7040e-07) d(Edge)/d(y9) check complete with 0 total errors (errmax= 1.2722e-11) d(Node)/d(y9) check complete with 0 total errors (errmax= 6.1232e-28) ********************************************************* Starting geometric sensitivity wrt "y10" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "y10" for ibody=6 d(Face)/d(y10) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "y10" for ibody=13 d(Face)/d(y10) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "y10" for ibody=19 d(Face)/d(y10) check complete with 0 total errors (errmax= 7.0972e-11) d(Edge)/d(y10) check complete with 0 total errors (errmax= 2.1845e-31) d(Node)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z1" for ibody=6 d(Face)/d(z1) check complete with 0 total errors (errmax= 4.7149e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 3.6122e-20) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z1" for ibody=13 d(Face)/d(z1) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z1" for ibody=19 d(Face)/d(z1) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z2" for ibody=6 d(Face)/d(z2) check complete with 0 total errors (errmax= 5.4410e-05) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.2972e-06) d(Node)/d(z2) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z2" for ibody=13 d(Face)/d(z2) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z2" for ibody=19 d(Face)/d(z2) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z3" for ibody=6 d(Face)/d(z3) check complete with 0 total errors (errmax= 5.4410e-05) d(Edge)/d(z3) check complete with 0 total errors (errmax= 1.2972e-06) d(Node)/d(z3) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z3" for ibody=13 d(Face)/d(z3) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z3" for ibody=19 d(Face)/d(z3) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z4" for ibody=6 d(Face)/d(z4) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z4" for ibody=13 d(Face)/d(z4) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z4) check complete with 0 total errors (errmax= 2.1135e-20) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z4" for ibody=19 d(Face)/d(z4) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z5" for ibody=6 d(Face)/d(z5) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z5" for ibody=13 d(Face)/d(z5) check complete with 0 total errors (errmax= 8.4580e-05) d(Edge)/d(z5) check complete with 0 total errors (errmax= 2.8981e-06) d(Node)/d(z5) check complete with 0 total errors (errmax= 4.7497e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z5" for ibody=19 d(Face)/d(z5) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z6" for ibody=6 d(Face)/d(z6) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z6" for ibody=13 d(Face)/d(z6) check complete with 0 total errors (errmax= 8.4580e-05) d(Edge)/d(z6) check complete with 0 total errors (errmax= 2.8981e-06) d(Node)/d(z6) check complete with 0 total errors (errmax= 4.7497e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z6" for ibody=19 d(Face)/d(z6) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z7" for ibody=6 d(Face)/d(z7) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z7" for ibody=13 d(Face)/d(z7) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z7) check complete with 0 total errors (errmax= 2.2362e-20) d(Node)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z7" for ibody=19 d(Face)/d(z7) check complete with 0 total errors (errmax= 6.9244e-11) d(Edge)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z8" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z8" for ibody=6 d(Face)/d(z8) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z8" for ibody=13 d(Face)/d(z8) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z8" for ibody=19 d(Face)/d(z8) check complete with 0 total errors (errmax= 5.4410e-05) d(Edge)/d(z8) check complete with 0 total errors (errmax= 1.2972e-06) d(Node)/d(z8) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z9" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z9" for ibody=6 d(Face)/d(z9) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z9" for ibody=13 d(Face)/d(z9) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z9" for ibody=19 d(Face)/d(z9) check complete with 0 total errors (errmax= 5.4410e-05) d(Edge)/d(z9) check complete with 0 total errors (errmax= 1.2972e-06) d(Node)/d(z9) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z10" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "z10" for ibody=6 d(Face)/d(z10) check complete with 0 total errors (errmax= 4.5211e-11) d(Edge)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "z10" for ibody=13 d(Face)/d(z10) check complete with 0 total errors (errmax= 3.1818e-11) d(Edge)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "z10" for ibody=19 d(Face)/d(z10) check complete with 0 total errors (errmax= 7.0841e-11) d(Edge)/d(z10) check complete with 0 total errors (errmax= 7.5894e-20) d(Node)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 15.589 sec Sensitivity checks complete with 0 total errors (max geom err= 8.4580e-05) with 0 suppressions real 4m12.485s user 3m6.082s sys 0m0.465s ++ set +x -------------------------------------------------------------------------------------------------- ( 13 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0m.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xbase" for ibody=4 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.4067e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.0704e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.9473e-09) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ybase" for ibody=4 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.4248e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.4699e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.9544e-09) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "zbase" for ibody=4 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.8946e-10) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0202e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 3.1754e-09) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xsize" for ibody=4 d(Face)/d(xsize) check complete with 0 total errors (errmax= 3.3765e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.2794e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 1.9473e-09) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ysize" for ibody=4 d(Face)/d(ysize) check complete with 0 total errors (errmax= 5.4248e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 4.4699e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 1.9544e-09) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "zsize" for ibody=4 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.8946e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 8.9901e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 3.1754e-09) ********************************************************* Starting geometric sensitivity wrt "nx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "nx" for ibody=4 d(Face)/d(nx) check complete with 0 total errors (errmax= 1.3014e-05) d(Edge)/d(nx) check complete with 0 total errors (errmax= 3.9758e-08) d(Node)/d(nx) check complete with 0 total errors (errmax= 2.5230e-05) ********************************************************* Starting geometric sensitivity wrt "ny" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ny" for ibody=4 d(Face)/d(ny) check complete with 0 total errors (errmax= 3.7198e-05) d(Edge)/d(ny) check complete with 0 total errors (errmax= 2.0898e-07) d(Node)/d(ny) check complete with 0 total errors (errmax= 5.0529e-05) ********************************************************* Starting geometric sensitivity wrt "nz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "nz" for ibody=4 d(Face)/d(nz) check complete with 0 total errors (errmax= 4.0053e-05) d(Edge)/d(nz) check complete with 0 total errors (errmax= 1.9294e-07) d(Node)/d(nz) check complete with 0 total errors (errmax= 6.1422e-05) ********************************************************* Starting geometric sensitivity wrt "dist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "dist" for ibody=4 d(Face)/d(dist) check complete with 0 total errors (errmax= 8.1597e-10) d(Edge)/d(dist) check complete with 0 total errors (errmax= 8.2737e-17) d(Node)/d(dist) check complete with 0 total errors (errmax= 1.8460e-09) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "scale" for ibody=4 d(Face)/d(scale) check complete with 0 total errors (errmax= 4.7232e-10) d(Edge)/d(scale) check complete with 0 total errors (errmax= 8.3108e-17) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.5513e-09) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "dx" for ibody=4 d(Face)/d(dx) check complete with 0 total errors (errmax= 4.5160e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 2.8836e-17) d(Node)/d(dx) check complete with 0 total errors (errmax= 5.9349e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "dy" for ibody=4 d(Face)/d(dy) check complete with 0 total errors (errmax= 2.8085e-10) d(Edge)/d(dy) check complete with 0 total errors (errmax= 3.3622e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.7569e-10) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "dz" for ibody=4 d(Face)/d(dz) check complete with 0 total errors (errmax= 2.9455e-10) d(Edge)/d(dz) check complete with 0 total errors (errmax= 6.7139e-18) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.3209e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.027 sec Sensitivity checks complete with 0 total errors (max geom err= 6.1422e-05) with 0 suppressions real 0m0.954s user 0m0.536s sys 0m0.296s ++ set +x -------------------------------------------------------------------------------------------------- ( 14 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0n1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "thickness" for ibody=3 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.0714e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 9.9875e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 5.8734e-12) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "camber" for ibody=3 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.3062e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 4.9945e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0501e-09) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "span" for ibody=3 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.5889e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.110 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3062e-05) with 0 suppressions real 0m2.494s user 0m3.124s sys 0m0.302s ++ set +x -------------------------------------------------------------------------------------------------- ( 15 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0n2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "class[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "class[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "aupper[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "aupper[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "aupper[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "aupper[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "alower[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "alower[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "alower[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "alower[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "span" for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.7198e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.846 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m4.263s user 0m4.217s sys 0m0.324s ++ set +x -------------------------------------------------------------------------------------------------- ( 16 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "thickness" for ibody=6 d(Face)/d(thickness) check complete with 0 total errors (errmax= 9.9770e-06) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 8.9859e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 5.8734e-12) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "camber" for ibody=6 d(Face)/d(camber) check complete with 0 total errors (errmax= 3.0298e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 7.6767e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0501e-09) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "span" for ibody=6 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.8453e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.363 sec Sensitivity checks complete with 0 total errors (max geom err= 9.9770e-06) with 0 suppressions real 0m12.431s user 0m8.996s sys 0m0.353s ++ set +x -------------------------------------------------------------------------------------------------- ( 17 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "class[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "class[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "span" for ibody=10 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.9279e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 14.772 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m27.318s user 0m19.092s sys 0m0.299s ++ set +x -------------------------------------------------------------------------------------------------- ( 18 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "thickness" for ibody=6 d(Face)/d(thickness) check complete with 0 total errors (errmax= 9.9770e-06) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 8.9859e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 5.8734e-12) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "camber" for ibody=6 d(Face)/d(camber) check complete with 0 total errors (errmax= 3.0298e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 7.6767e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0501e-09) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "span" for ibody=6 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.8453e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.843 sec Sensitivity checks complete with 0 total errors (max geom err= 9.9770e-06) with 0 suppressions real 0m12.482s user 0m10.349s sys 0m0.318s ++ set +x -------------------------------------------------------------------------------------------------- ( 19 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "class[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "class[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "aupper[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "alower[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "span" for ibody=10 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.9279e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 14.194 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m26.250s user 0m18.921s sys 0m0.391s ++ set +x -------------------------------------------------------------------------------------------------- ( 20 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0p.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "camber" for ibody=4 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.0240e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 9.7514e-09) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "chord" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "chord" for ibody=4 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.2388e-11) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.1845e-18) d(Node)/d(chord) check complete with 0 total errors (errmax= 7.9165e-11) ********************************************************* Starting geometric sensitivity wrt "alpha" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "alpha" for ibody=4 d(Face)/d(alpha) check complete with 0 total errors (errmax= 1.7291e-11) d(Edge)/d(alpha) check complete with 0 total errors (errmax= 4.7941e-19) d(Node)/d(alpha) check complete with 0 total errors (errmax= 5.0365e-11) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "span" for ibody=4 d(Face)/d(span) check complete with 0 total errors (errmax= 4.4950e-13) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.5187e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.028 sec Sensitivity checks complete with 0 total errors (max geom err= 1.0240e-05) with 0 suppressions real 0m0.730s user 0m0.383s sys 0m0.295s ++ set +x -------------------------------------------------------------------------------------------------- ( 21 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0q.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "camber" for ibody=7 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.3667e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.7372e-12) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "chord" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "chord" for ibody=7 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.5694e-11) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.4631e-18) d(Node)/d(chord) check complete with 0 total errors (errmax= 7.9165e-11) ********************************************************* Starting geometric sensitivity wrt "alpha" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "alpha" for ibody=7 d(Face)/d(alpha) check complete with 0 total errors (errmax= 1.9714e-11) d(Edge)/d(alpha) check complete with 0 total errors (errmax= 7.5259e-19) d(Node)/d(alpha) check complete with 0 total errors (errmax= 5.0365e-11) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "span" for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 3.0181e-12) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.6648e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.135 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3667e-07) with 0 suppressions real 0m4.633s user 0m2.881s sys 0m0.324s ++ set +x -------------------------------------------------------------------------------------------------- ( 22 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0r.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "xbeg" for ibody=11 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.2820e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.5284e-18) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 1.2820e-10) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "xend" for ibody=11 d(Face)/d(xend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "rad" for ibody=11 d(Face)/d(rad) check complete with 0 total errors (errmax= 2.4423e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 7.5676e-14) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.6476e-07) ********************************************************* Starting geometric sensitivity wrt "size1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "size1" for ibody=11 d(Face)/d(size1) check complete with 0 total errors (errmax= 3.0126e-08) d(Edge)/d(size1) check complete with 0 total errors (errmax= 1.7222e-13) d(Node)/d(size1) check complete with 0 total errors (errmax= 2.5741e-07) ********************************************************* Starting geometric sensitivity wrt "angl1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "angl1" for ibody=11 d(Face)/d(angl1) check complete with 0 total errors (errmax= 2.4967e-10) d(Edge)/d(angl1) check complete with 0 total errors (errmax= 4.4768e-18) d(Node)/d(angl1) check complete with 0 total errors (errmax= 2.8053e-10) ********************************************************* Starting geometric sensitivity wrt "dx1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dx1" for ibody=11 d(Face)/d(dx1) check complete with 0 total errors (errmax= 5.7609e-11) d(Edge)/d(dx1) check complete with 0 total errors (errmax= 7.4176e-20) d(Node)/d(dx1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dy1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dy1" for ibody=11 d(Face)/d(dy1) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dy1) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(dy1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dz1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dz1" for ibody=11 d(Face)/d(dz1) check complete with 0 total errors (errmax= 9.1949e-08) d(Edge)/d(dz1) check complete with 0 total errors (errmax= 2.8375e-12) d(Node)/d(dz1) check complete with 0 total errors (errmax= 5.1479e-07) ********************************************************* Starting geometric sensitivity wrt "size2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "size2" for ibody=11 d(Face)/d(size2) check complete with 0 total errors (errmax= 2.0895e-08) d(Edge)/d(size2) check complete with 0 total errors (errmax= 1.8460e-13) d(Node)/d(size2) check complete with 0 total errors (errmax= 9.3757e-08) ********************************************************* Starting geometric sensitivity wrt "angl2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "angl2" for ibody=11 d(Face)/d(angl2) check complete with 0 total errors (errmax= 1.6807e-10) d(Edge)/d(angl2) check complete with 0 total errors (errmax= 8.8071e-05) d(Node)/d(angl2) check complete with 0 total errors (errmax= 1.7888e-10) ********************************************************* Starting geometric sensitivity wrt "dx2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dx2" for ibody=11 d(Face)/d(dx2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dx2) check complete with 0 total errors (errmax= 6.4824e-19) d(Node)/d(dx2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dy2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dy2" for ibody=11 d(Face)/d(dy2) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dy2) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(dy2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dz2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dz2" for ibody=11 d(Face)/d(dz2) check complete with 0 total errors (errmax= 9.4100e-08) d(Edge)/d(dz2) check complete with 0 total errors (errmax= 2.9524e-12) d(Node)/d(dz2) check complete with 0 total errors (errmax= 3.7495e-07) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dx" for ibody=11 d(Face)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dy" for ibody=11 d(Face)/d(dy) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dy) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(dy) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dz" for ibody=11 d(Face)/d(dz) check complete with 0 total errors (errmax= 2.4287e-11) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "sfac" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "sfac" for ibody=11 d(Face)/d(sfac) check complete with 0 total errors (errmax= 9.4993e-11) d(Edge)/d(sfac) check complete with 0 total errors (errmax= 1.0361e-18) d(Node)/d(sfac) check complete with 0 total errors (errmax= 1.4656e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.279 sec Sensitivity checks complete with 0 total errors (max geom err= 8.8071e-05) with 0 suppressions real 0m9.720s user 0m6.910s sys 0m0.416s ++ set +x -------------------------------------------------------------------------------------------------- ( 23 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0s.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "dx" for ibody=2 d(Face)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "dy" for ibody=2 d(Face)/d(dy) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dy) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "dz" for ibody=2 d(Face)/d(dz) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(dz) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dz) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.010 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.317s user 0m0.445s sys 0m0.318s ++ set +x -------------------------------------------------------------------------------------------------- ( 24 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0t1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DX" for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DY" for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DZ" for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max geom err= 4.0350e-11) with 0 suppressions real 0m0.894s user 0m0.378s sys 0m0.279s ++ set +x -------------------------------------------------------------------------------------------------- ( 25 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0t2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DX" for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.7000e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DY" for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 6.2425e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 2.5003e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DZ" for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.9955e-10) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.2456e-18) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.511 sec Sensitivity checks complete with 0 total errors (max geom err= 1.9955e-10) with 0 suppressions real 0m2.693s user 0m1.668s sys 0m0.254s ++ set +x -------------------------------------------------------------------------------------------------- ( 26 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0t3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DX" for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.7000e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DY" for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 6.2425e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 2.5003e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DZ" for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.9955e-10) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.2456e-18) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.483 sec Sensitivity checks complete with 0 total errors (max geom err= 1.9955e-10) with 0 suppressions real 0m3.299s user 0m1.556s sys 0m0.291s ++ set +x -------------------------------------------------------------------------------------------------- ( 27 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0u.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rx" for ibody=1 d(Face)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rx) check complete with 0 total errors (errmax= 4.8372e-07) d(Node)/d(rx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ry" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ry" for ibody=1 d(Face)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ry) check complete with 0 total errors (errmax= 1.2089e-07) d(Node)/d(ry) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.003 sec Sensitivity checks complete with 0 total errors (max geom err= 4.8372e-07) with 0 suppressions real 0m0.938s user 0m0.306s sys 0m0.270s ++ set +x -------------------------------------------------------------------------------------------------- ( 28 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0v.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "rx" for ibody=2 d(Face)/d(rx) check complete with 0 total errors (errmax= 7.2120e-05) d(Edge)/d(rx) check complete with 0 total errors (errmax= 4.8372e-07) d(Node)/d(rx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ry" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "ry" for ibody=2 d(Face)/d(ry) check complete with 0 total errors (errmax= 3.6054e-05) d(Edge)/d(ry) check complete with 0 total errors (errmax= 1.2089e-07) d(Node)/d(ry) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.5859e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.080 sec Sensitivity checks complete with 0 total errors (max geom err= 7.2120e-05) with 0 suppressions real 0m1.214s user 0m0.806s sys 0m0.303s ++ set +x -------------------------------------------------------------------------------------------------- ( 29 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0w.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[1,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 5.1374e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 9.4550e-19) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "xle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[2,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 7.4475e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.4543e-18) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "xle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[3,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 7.8916e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 6.6888e-19) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "xle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "xle[4,1]" for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 9.4831e-11) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.8205e-18) d(Node)/d(xle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "yle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[1,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.9282e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 5.7351e-20) d(Node)/d(yle) check complete with 0 total errors (errmax= 2.5039e-19) ********************************************************* Starting geometric sensitivity wrt "yle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[2,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.8935e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.8573e-19) d(Node)/d(yle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "yle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[3,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.9024e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 3.7416e-19) d(Node)/d(yle) check complete with 0 total errors (errmax= 4.7770e-11) ********************************************************* Starting geometric sensitivity wrt "yle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "yle[4,1]" for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.9024e-11) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.1376e-18) d(Node)/d(yle) check complete with 0 total errors (errmax= 1.7597e-10) ********************************************************* Starting geometric sensitivity wrt "zle[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[1,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.0628e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.6169e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "zle[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[2,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.2008e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.0440e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 3.0389e-13) ********************************************************* Starting geometric sensitivity wrt "zle[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[3,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.9024e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.4939e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "zle[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "zle[4,1]" for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.9024e-11) d(Edge)/d(zle) check complete with 0 total errors (errmax= 5.1596e-20) d(Node)/d(zle) check complete with 0 total errors (errmax= 1.6329e-11) ********************************************************* Starting geometric sensitivity wrt "twist[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[1,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.0089e-07) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.4078e-12) d(Node)/d(twist) check complete with 0 total errors (errmax= 9.5414e-11) ********************************************************* Starting geometric sensitivity wrt "twist[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[2,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.5386e-07) d(Edge)/d(twist) check complete with 0 total errors (errmax= 7.2407e-13) d(Node)/d(twist) check complete with 0 total errors (errmax= 7.2542e-11) ********************************************************* Starting geometric sensitivity wrt "twist[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[3,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.2349e-07) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.9775e-13) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.6545e-10) ********************************************************* Starting geometric sensitivity wrt "twist[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "twist[4,1]" for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.1990e-08) d(Edge)/d(twist) check complete with 0 total errors (errmax= 9.1184e-14) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5894e-10) ********************************************************* Starting geometric sensitivity wrt "chord[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[1,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 8.5050e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 4.9529e-13) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.0954e-10) ********************************************************* Starting geometric sensitivity wrt "chord[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[2,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.2800e-07) d(Edge)/d(chord) check complete with 0 total errors (errmax= 5.9952e-13) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.3890e-10) ********************************************************* Starting geometric sensitivity wrt "chord[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[3,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.5722e-07) d(Edge)/d(chord) check complete with 0 total errors (errmax= 5.4963e-13) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.1186e-10) ********************************************************* Starting geometric sensitivity wrt "chord[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "chord[4,1]" for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 9.9899e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 5.4221e-13) d(Node)/d(chord) check complete with 0 total errors (errmax= 9.5542e-11) ********************************************************* Starting geometric sensitivity wrt "thick[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[1,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.9076e-03) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.5688e-04) d(Node)/d(thick) check complete with 0 total errors (errmax= 5.4720e-11) ********************************************************* Starting geometric sensitivity wrt "thick[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[2,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.1599e-03) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.4736e-04) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.2939e-10) ********************************************************* Starting geometric sensitivity wrt "thick[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[3,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.9544e-03) d(Edge)/d(thick) check complete with 0 total errors (errmax= 7.7916e-05) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.4886e-10) ********************************************************* Starting geometric sensitivity wrt "thick[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "thick[4,1]" for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 6.3544e-04) d(Edge)/d(thick) check complete with 0 total errors (errmax= 2.4712e-05) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.5496e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 22.080 sec Sensitivity checks complete with 31 total errors (max geom err= 2.1599e-03) with 0 suppressions real 1m2.551s user 0m43.575s sys 0m0.361s ++ set +x -------------------------------------------------------------------------------------------------- ( 30 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "L1" for ibody=5 d(Face)/d(L1) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(L1) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(L1) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "H1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "H1" for ibody=5 d(Face)/d(H1) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(H1) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(H1) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "D1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "D1" for ibody=5 d(Face)/d(D1) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(D1) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(D1) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "L2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "L2" for ibody=5 d(Face)/d(L2) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(L2) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(L2) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "H2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "H2" for ibody=5 d(Face)/d(H2) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(H2) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(H2) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "D2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "D2" for ibody=5 d(Face)/d(D2) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(D2) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(D2) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dx" for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dy" for ibody=5 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dy) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dz" for ibody=5 d(Face)/d(dz) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dz) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dz) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "sfac" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "sfac" for ibody=5 d(Face)/d(sfac) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(sfac) check complete with 0 total errors (errmax= 3.8099e-18) d(Node)/d(sfac) check complete with 0 total errors (errmax= 3.7852e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.170 sec Sensitivity checks complete with 0 total errors (max geom err= 3.7852e-10) with 0 suppressions real 0m2.616s user 0m2.451s sys 0m0.390s ++ set +x -------------------------------------------------------------------------------------------------- ( 31 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "Length" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Length" for ibody=13 d(Face)/d(Length) check complete with 0 total errors (errmax= 8.3354e-10) d(Edge)/d(Length) check complete with 0 total errors (errmax= 3.6798e-17) d(Node)/d(Length) check complete with 0 total errors (errmax= 8.1378e-10) ********************************************************* Starting geometric sensitivity wrt "Height" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Height" for ibody=13 d(Face)/d(Height) check complete with 0 total errors (errmax= 5.6211e-10) d(Edge)/d(Height) check complete with 0 total errors (errmax= 1.5908e-17) d(Node)/d(Height) check complete with 0 total errors (errmax= 5.9457e-10) ********************************************************* Starting geometric sensitivity wrt "Depth" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Depth" for ibody=13 d(Face)/d(Depth) check complete with 0 total errors (errmax= 2.2907e-10) d(Edge)/d(Depth) check complete with 0 total errors (errmax= 4.8801e-18) d(Node)/d(Depth) check complete with 0 total errors (errmax= 2.2907e-10) ********************************************************* Starting geometric sensitivity wrt "Rhole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Rhole" for ibody=13 d(Face)/d(Rhole) check complete with 0 total errors (errmax= 1.2044e-10) d(Edge)/d(Rhole) check complete with 0 total errors (errmax= 8.4293e-18) d(Node)/d(Rhole) check complete with 0 total errors (errmax= 4.3280e-10) ********************************************************* Starting geometric sensitivity wrt "Xpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Xpole" for ibody=13 d(Face)/d(Xpole) check complete with 0 total errors (errmax= 1.5487e-10) d(Edge)/d(Xpole) check complete with 0 total errors (errmax= 3.1768e-18) d(Node)/d(Xpole) check complete with 0 total errors (errmax= 4.3280e-10) ********************************************************* Starting geometric sensitivity wrt "Ypole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Ypole" for ibody=13 d(Face)/d(Ypole) check complete with 0 total errors (errmax= 7.9635e-11) d(Edge)/d(Ypole) check complete with 0 total errors (errmax= 1.0383e-18) d(Node)/d(Ypole) check complete with 0 total errors (errmax= 2.0711e-10) ********************************************************* Starting geometric sensitivity wrt "Rpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Rpole" for ibody=13 d(Face)/d(Rpole) check complete with 0 total errors (errmax= 9.1122e-11) d(Edge)/d(Rpole) check complete with 0 total errors (errmax= 7.7326e-19) d(Node)/d(Rpole) check complete with 0 total errors (errmax= 1.2105e-10) ********************************************************* Starting geometric sensitivity wrt "XangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "XangDeg" for ibody=13 d(Face)/d(XangDeg) check complete with 0 total errors (errmax= 6.4231e-10) d(Edge)/d(XangDeg) check complete with 0 total errors (errmax= 2.5027e-17) d(Node)/d(XangDeg) check complete with 0 total errors (errmax= 7.4869e-10) ********************************************************* Starting geometric sensitivity wrt "YangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "YangDeg" for ibody=13 d(Face)/d(YangDeg) check complete with 0 total errors (errmax= 6.4289e-10) d(Edge)/d(YangDeg) check complete with 0 total errors (errmax= 9.8385e-17) d(Node)/d(YangDeg) check complete with 0 total errors (errmax= 1.4320e-09) ********************************************************* Starting geometric sensitivity wrt "ZangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "ZangDeg" for ibody=13 d(Face)/d(ZangDeg) check complete with 0 total errors (errmax= 1.2106e-09) d(Edge)/d(ZangDeg) check complete with 0 total errors (errmax= 7.0764e-17) d(Node)/d(ZangDeg) check complete with 0 total errors (errmax= 1.2540e-09) ********************************************************* Starting geometric sensitivity wrt "Dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dx" for ibody=13 d(Face)/d(Dx) check complete with 0 total errors (errmax= 5.9842e-10) d(Edge)/d(Dx) check complete with 0 total errors (errmax= 1.8903e-17) d(Node)/d(Dx) check complete with 0 total errors (errmax= 6.4813e-10) ********************************************************* Starting geometric sensitivity wrt "Dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dy" for ibody=13 d(Face)/d(Dy) check complete with 0 total errors (errmax= 1.3176e-10) d(Edge)/d(Dy) check complete with 0 total errors (errmax= 1.0963e-18) d(Node)/d(Dy) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "Dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dz" for ibody=13 d(Face)/d(Dz) check complete with 0 total errors (errmax= 1.2105e-10) d(Edge)/d(Dz) check complete with 0 total errors (errmax= 1.3628e-18) d(Node)/d(Dz) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "Scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Scale" for ibody=13 d(Face)/d(Scale) check complete with 0 total errors (errmax= 3.6633e-10) d(Edge)/d(Scale) check complete with 0 total errors (errmax= 2.2402e-17) d(Node)/d(Scale) check complete with 0 total errors (errmax= 7.1016e-10) ********************************************************* Starting geometric sensitivity wrt "Dist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dist" for ibody=13 d(Face)/d(Dist) check complete with 0 total errors (errmax= 1.5782e-10) d(Edge)/d(Dist) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(Dist) check complete with 0 total errors (errmax= 1.6140e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.320 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4320e-09) with 0 suppressions real 0m8.481s user 0m7.289s sys 0m0.490s ++ set +x -------------------------------------------------------------------------------------------------- ( 32 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "Length" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Height" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Depth" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "BoxFil" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Wslot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Dslot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Rhole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Nhole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Fhole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Xpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Ypole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Rpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Fpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "XangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "YangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "ZangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "Scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "array[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "array[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "array[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting geometric sensitivity wrt "array[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 47.649 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 1m2.110s user 0m50.950s sys 0m0.786s ++ set +x -------------------------------------------------------------------------------------------------- ( 33 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design3.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7ff7d00053fc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053fc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ff ff ff ff ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct type', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct type', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7ff7d000541c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d000541c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7ff7d00053e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7ff7d00053e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00053e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 31 88 2b f6 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7ff7dc00b2c4 for type 'struct type', which requires 8 byte alignment 0x7ff7dc00b2c4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 25 b8 82 fc ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7ff7c0004a4c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7c0004a4c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7ff7a00047f4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7a00047f4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 25 b8 82 fc ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7ff7c8009354 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7c8009354: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 99 33 4f 8a ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7ff7d8007594 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d8007594: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7ff7d00054a4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d00054a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x55d03e14ca9c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55d03e14ca9c: note: pointer points here 00 00 00 00 d0 55 00 00 00 00 00 00 00 00 00 00 01 00 00 00 00 00 f8 3f a0 af 00 d4 f7 7f 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7ff7d400c444 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d400c444: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 88 1d 87 22 f8 7f 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d80075e4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d80075e4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 0c 00 00 00 00 00 f0 3f 30 88 2b f6 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7ff7c0004a34 for type 'struct value_type', which requires 8 byte alignment 0x7ff7c0004a34: note: pointer points here 00 00 00 00 31 2c 6d e5 25 43 18 40 00 00 00 00 00 00 00 00 0c 00 00 00 d3 12 19 40 25 b8 82 fc ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d80075e4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d80075e4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 0c 00 00 00 00 00 f0 3f 30 88 2b f6 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7ff7c80093a4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7c80093a4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 0c 00 00 00 00 00 f0 3f 30 88 2b f6 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14cab4 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cab4: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 0c 00 00 00 00 00 f0 3f a0 33 4f 8a ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7ff7d0005434 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d0005434: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 0c 00 00 00 00 00 f0 3f a0 33 4f 8a ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7dc00b314 for type 'struct value_type', which requires 8 byte alignment 0x7ff7dc00b314: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 0c 00 00 00 d3 e7 17 40 31 2c 6d e5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7ff7d400c494 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400c494: note: pointer points here 00 00 00 00 31 2c 6d e5 25 43 18 40 00 00 00 00 00 00 00 00 0c 00 00 00 2e 09 0b 40 25 b8 82 fc ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14ce54 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14ce54: note: pointer points here 00 00 00 00 84 5b 2d 0c af c1 d0 3f 60 3a e7 47 61 6e 0b 40 0d 00 00 00 00 00 f0 3f cb ca 52 eb ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14cab4 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cab4: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f a0 33 4f 8a ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7ff7d00057d4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d00057d4: note: pointer points here 00 00 00 00 84 5b 2d 0c af c1 d0 3f 60 3a e7 47 61 6e 0b 40 0d 00 00 00 00 00 f0 3f cb ca 52 eb ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7a0004844 for type 'struct value_type', which requires 8 byte alignment 0x7ff7a0004844: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 0c 00 00 00 d3 e7 17 40 31 2c 6d e5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x7ff7c800972c for type 'struct value_type', which requires 8 byte alignment 0x7ff7c800972c: note: pointer points here 00 00 00 00 64 97 79 8d af cc cc 3f f9 93 1b c2 bf 5e d2 3f 0d 00 00 00 00 00 f0 3f dc 33 34 ef ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7ff7a000485c for type 'struct value_type', which requires 8 byte alignment 0x7ff7a000485c: note: pointer points here d3 e7 17 40 31 2c 6d e5 25 43 18 40 18 2d 44 54 fb 21 19 40 0c 00 00 00 d3 e7 17 40 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7ff7a000485c for type 'struct value_type', which requires 8 byte alignment 0x7ff7a000485c: note: pointer points here d3 e7 17 40 31 2c 6d e5 25 43 18 40 18 2d 44 54 fb 21 19 40 0c 00 00 00 d3 e7 17 40 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7a0004844 for type 'struct value_type', which requires 8 byte alignment 0x7ff7a0004844: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 e7 17 40 31 2c 6d e5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7ff7a0004844 for type 'struct value_type', which requires 8 byte alignment 0x7ff7a0004844: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 e7 17 40 31 2c 6d e5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7c80093bc for type 'struct value_type', which requires 8 byte alignment 0x7ff7c80093bc: note: pointer points here 00 00 f0 3f 30 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7ff7c80093a4 for type 'const struct value_type', which requires 8 byte alignment 0x7ff7c80093a4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 00 00 f0 3f 30 88 2b f6 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7ff7c80093a4 for type 'const struct value_type', which requires 8 byte alignment 0x7ff7c80093a4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 00 00 f0 3f 30 88 2b f6 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7dc00b684 for type 'struct value_type', which requires 8 byte alignment 0x7ff7dc00b684: note: pointer points here 00 00 00 00 5d 6e 8f 06 cc e1 17 40 b9 73 72 fc 2a 80 0b 40 0d 00 00 00 d3 e7 17 40 a3 b3 26 67 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d000544c for type 'struct value_type', which requires 8 byte alignment 0x7ff7d000544c: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7ff7d0005434 for type 'const struct value_type', which requires 8 byte alignment 0x7ff7d0005434: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f a0 33 4f 8a ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7ff7a0004844 for type 'const struct value_type', which requires 8 byte alignment 0x7ff7a0004844: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 e7 17 40 31 2c 6d e5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7ff7d400c834 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400c834: note: pointer points here 00 00 00 00 97 16 9b 20 62 44 18 40 59 41 c6 a2 61 d6 d1 3f 0d 00 00 00 2e 09 0b 40 dd 83 c8 76 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x55d03e14cab4 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cab4: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f a0 33 4f 8a ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7ff7d400cb04 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400cb04: note: pointer points here 2e 09 0b 40 ec f6 2e f7 35 43 18 40 35 1f 60 47 aa bd 79 3f 0d 00 00 00 2e 09 0b 40 ce ed 60 03 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7ff7d400cb04 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400cb04: note: pointer points here 2e 09 0b 40 ec f6 2e f7 35 43 18 40 35 1f 60 47 aa bd 79 3f 0d 00 00 00 2e 09 0b 40 ce ed 60 03 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7ff7dc00b314 for type 'const struct value_type', which requires 8 byte alignment 0x7ff7dc00b314: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 e7 17 40 31 2c 6d e5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14d154 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14d154: note: pointer points here 00 00 f0 3f b4 8c e8 a6 ee 4c d0 3f df 81 4f 87 d9 2e 09 40 0d 00 00 00 00 00 f0 3f d4 68 8b 86 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d0005ad4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d0005ad4: note: pointer points here 00 00 f0 3f b4 8c e8 a6 ee 4c d0 3f df 81 4f 87 d9 2e 09 40 0d 00 00 00 00 00 f0 3f d4 68 8b 86 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d0005aa4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d0005aa4: note: pointer points here 00 00 f0 3f 90 93 ed eb f8 4c d0 3f 17 3c c9 4e 06 2f 09 40 0d 00 00 00 00 00 f0 3f 1e 7e c2 45 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7ff7d0005aa4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d0005aa4: note: pointer points here 00 00 f0 3f 90 93 ed eb f8 4c d0 3f 17 3c c9 4e 06 2f 09 40 0d 00 00 00 00 00 f0 3f 1e 7e c2 45 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x55d03e14d124 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14d124: note: pointer points here 00 00 f0 3f 90 93 ed eb f8 4c d0 3f 17 3c c9 4e 06 2f 09 40 0d 00 00 00 00 00 f0 3f 1e 7e c2 45 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d800796c for type 'struct value_type', which requires 8 byte alignment 0x7ff7d800796c: note: pointer points here 00 00 00 00 64 97 79 8d af cc cc 3f f9 93 1b c2 bf 5e d2 3f 0d 00 00 00 00 00 f0 3f dc 33 34 ef ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7ff7c80093a4 for type 'const struct value_type', which requires 8 byte alignment 0x7ff7c80093a4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 00 00 f0 3f 30 88 2b f6 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d400cb34 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400cb34: note: pointer points here 2e 09 0b 40 8f a1 4e 01 36 43 18 40 1d eb f0 11 20 ce 79 3f 0d 00 00 00 2e 09 0b 40 b7 0d e7 a9 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7ff7c0004a34 for type 'struct value_type', which requires 8 byte alignment 0x7ff7c0004a34: note: pointer points here 00 00 00 00 31 2c 6d e5 25 43 18 40 00 00 00 00 00 00 00 00 0c 00 00 00 d3 12 19 40 25 b8 82 fc ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14cacc for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x55d03e14cacc for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14cacc for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x55d03e14cacc for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14cacc for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x55d03e14cacc for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x55d03e14cacc for type 'const struct value_type', which requires 8 byte alignment 0x55d03e14cacc: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f f2 d7 7a 3e ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7ff7d000544c for type 'struct value_type', which requires 8 byte alignment 0x7ff7d000544c: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7ff7d0005434 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d0005434: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f a0 33 4f 8a ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d0005434 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d0005434: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f a0 33 4f 8a ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7c0004a4c for type 'struct value_type', which requires 8 byte alignment 0x7ff7c0004a4c: note: pointer points here d3 12 19 40 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 0c 00 00 00 d3 12 19 40 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7ff7d400c4ac for type 'const struct value_type', which requires 8 byte alignment 0x7ff7d400c4ac: note: pointer points here 2e 09 0b 40 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 0c 00 00 00 2e 09 0b 40 1b aa f0 3f ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7ff7d80075fc for type 'const struct value_type', which requires 8 byte alignment 0x7ff7d80075fc: note: pointer points here 00 00 f0 3f 30 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7ff7dc00b32c for type 'const struct value_type', which requires 8 byte alignment 0x7ff7dc00b32c: note: pointer points here d3 e7 17 40 31 2c 6d e5 25 43 18 40 18 2d 44 54 fb 21 19 40 0c 00 00 00 d3 e7 17 40 ad 49 c2 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7ff7d80075fc for type 'struct value_type', which requires 8 byte alignment 0x7ff7d80075fc: note: pointer points here 00 00 f0 3f 30 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d400c4ac for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400c4ac: note: pointer points here 2e 09 0b 40 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff 2e 09 0b 40 1b aa f0 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7ff7a0004844 for type 'struct value_type', which requires 8 byte alignment 0x7ff7a0004844: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 e7 17 40 31 2c 6d e5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d800796c for type 'struct value_type', which requires 8 byte alignment 0x7ff7d800796c: note: pointer points here 00 00 00 00 64 97 79 8d af cc cc 3f f9 93 1b c2 bf 5e d2 3f f3 ff ff ff 00 00 f0 3f dc 33 34 ef ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7ff7dc00b32c for type 'struct value_type', which requires 8 byte alignment 0x7ff7dc00b32c: note: pointer points here d3 e7 17 40 31 2c 6d e5 25 43 18 40 18 2d 44 54 fb 21 19 40 f4 ff ff ff d3 e7 17 40 ad 49 c2 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7ff7d80075e4 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d80075e4: note: pointer points here 00 00 00 00 99 33 4f 8a a3 2d cc 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 00 00 f0 3f 30 88 2b f6 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d03e14cab4 for type 'struct value_type', which requires 8 byte alignment 0x55d03e14cab4: note: pointer points here 00 00 00 00 31 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f a0 33 4f 8a ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7a0004844 for type 'struct value_type', which requires 8 byte alignment 0x7ff7a0004844: note: pointer points here 00 00 00 00 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 e7 17 40 31 2c 6d e5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7d000544c for type 'struct value_type', which requires 8 byte alignment 0x7ff7d000544c: note: pointer points here 00 00 f0 3f a0 33 4f 8a a3 2d cc 3f 18 2d 44 54 fb 21 19 40 f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7ff7dc00b66c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7dc00b66c: note: pointer points here d3 e7 17 40 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 5d 6e 8f 06 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7ff7d400c834 for type 'struct value_type', which requires 8 byte alignment 0x7ff7d400c834: note: pointer points here 00 00 00 00 97 16 9b 20 62 44 18 40 59 41 c6 a2 61 d6 d1 3f f3 ff ff ff 2e 09 0b 40 dd 83 c8 76 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7ff7c80093bc for type 'struct value_type', which requires 8 byte alignment 0x7ff7c80093bc: note: pointer points here 00 00 f0 3f 30 88 2b f6 f9 49 d0 3f 18 2d 44 54 fb 21 09 40 f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7ff7d80075cc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7ff7d80075cc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 99 33 4f 8a ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7ff7c0004a4c for type 'struct value_type', which requires 8 byte alignment 0x7ff7c0004a4c: note: pointer points here d3 12 19 40 25 b8 82 fc 18 f2 17 40 18 2d 44 54 fb 21 09 40 f4 ff ff ff d3 12 19 40 00 00 00 00 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "Xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Rcone" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Rsphere" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Rmajor" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "Rminor" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 21.810 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m21.908s user 0m26.503s sys 0m0.740s ++ set +x -------------------------------------------------------------------------------------------------- ( 34 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "Length" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Length" for ibody=13 d(Face)/d(Length) check complete with 0 total errors (errmax= 7.1357e-10) d(Edge)/d(Length) check complete with 0 total errors (errmax= 2.8821e-17) d(Node)/d(Length) check complete with 0 total errors (errmax= 6.8025e-10) ********************************************************* Starting geometric sensitivity wrt "Height" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Height" for ibody=13 d(Face)/d(Height) check complete with 0 total errors (errmax= 6.0995e-10) d(Edge)/d(Height) check complete with 0 total errors (errmax= 1.5502e-17) d(Node)/d(Height) check complete with 0 total errors (errmax= 5.8693e-10) ********************************************************* Starting geometric sensitivity wrt "Depth" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Depth" for ibody=13 d(Face)/d(Depth) check complete with 0 total errors (errmax= 1.2105e-10) d(Edge)/d(Depth) check complete with 0 total errors (errmax= 1.3628e-18) d(Node)/d(Depth) check complete with 0 total errors (errmax= 1.2105e-10) ********************************************************* Starting geometric sensitivity wrt "Rhole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Rhole" for ibody=13 d(Face)/d(Rhole) check complete with 0 total errors (errmax= 1.6492e-10) d(Edge)/d(Rhole) check complete with 0 total errors (errmax= 8.4293e-18) d(Node)/d(Rhole) check complete with 0 total errors (errmax= 4.3280e-10) ********************************************************* Starting geometric sensitivity wrt "Xpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Xpole" for ibody=13 d(Face)/d(Xpole) check complete with 0 total errors (errmax= 1.6117e-10) d(Edge)/d(Xpole) check complete with 0 total errors (errmax= 5.6260e-18) d(Node)/d(Xpole) check complete with 0 total errors (errmax= 4.3280e-10) ********************************************************* Starting geometric sensitivity wrt "Ypole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Ypole" for ibody=13 d(Face)/d(Ypole) check complete with 0 total errors (errmax= 1.0453e-10) d(Edge)/d(Ypole) check complete with 0 total errors (errmax= 2.6377e-18) d(Node)/d(Ypole) check complete with 0 total errors (errmax= 2.0711e-10) ********************************************************* Starting geometric sensitivity wrt "Rpole" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Rpole" for ibody=13 d(Face)/d(Rpole) check complete with 0 total errors (errmax= 1.8380e-10) d(Edge)/d(Rpole) check complete with 0 total errors (errmax= 3.0387e-18) d(Node)/d(Rpole) check complete with 0 total errors (errmax= 1.2105e-10) ********************************************************* Starting geometric sensitivity wrt "XangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "XangDeg" for ibody=13 d(Face)/d(XangDeg) check complete with 0 total errors (errmax= 6.2642e-10) d(Edge)/d(XangDeg) check complete with 0 total errors (errmax= 2.6405e-17) d(Node)/d(XangDeg) check complete with 0 total errors (errmax= 7.4869e-10) ********************************************************* Starting geometric sensitivity wrt "YangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "YangDeg" for ibody=13 d(Face)/d(YangDeg) check complete with 0 total errors (errmax= 6.6148e-10) d(Edge)/d(YangDeg) check complete with 0 total errors (errmax= 1.0005e-16) d(Node)/d(YangDeg) check complete with 0 total errors (errmax= 1.4320e-09) ********************************************************* Starting geometric sensitivity wrt "ZangDeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "ZangDeg" for ibody=13 d(Face)/d(ZangDeg) check complete with 0 total errors (errmax= 1.2434e-09) d(Edge)/d(ZangDeg) check complete with 0 total errors (errmax= 7.0764e-17) d(Node)/d(ZangDeg) check complete with 0 total errors (errmax= 1.2540e-09) ********************************************************* Starting geometric sensitivity wrt "Dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dx" for ibody=13 d(Face)/d(Dx) check complete with 0 total errors (errmax= 6.0510e-10) d(Edge)/d(Dx) check complete with 0 total errors (errmax= 1.8903e-17) d(Node)/d(Dx) check complete with 0 total errors (errmax= 6.4813e-10) ********************************************************* Starting geometric sensitivity wrt "Dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dy" for ibody=13 d(Face)/d(Dy) check complete with 0 total errors (errmax= 1.6725e-10) d(Edge)/d(Dy) check complete with 0 total errors (errmax= 1.1375e-18) d(Node)/d(Dy) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "Dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Dz" for ibody=13 d(Face)/d(Dz) check complete with 0 total errors (errmax= 1.2105e-10) d(Edge)/d(Dz) check complete with 0 total errors (errmax= 1.3628e-18) d(Node)/d(Dz) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "Scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "Scale" for ibody=13 d(Face)/d(Scale) check complete with 0 total errors (errmax= 2.7052e-10) d(Edge)/d(Scale) check complete with 0 total errors (errmax= 1.5561e-17) d(Node)/d(Scale) check complete with 0 total errors (errmax= 5.9567e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.324 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4320e-09) with 0 suppressions real 0m8.402s user 0m7.124s sys 0m0.480s ++ set +x -------------------------------------------------------------------------------------------------- ( 35 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design5.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f4d2c0b7274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d2c0b7274: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f4cb823bd64 for type 'struct type', which requires 8 byte alignment 0x7f4cb823bd64: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7f4d081e8804 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d081e8804: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7f4cb42414b4 for type 'struct value_type', which requires 8 byte alignment 0x7f4cb42414b4: note: pointer points here 00 00 00 00 6e b4 1a f8 d6 0b c0 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4c 7f 00 00 34 6d f0 6d ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x7f4cd4239fdc for type 'struct value_type', which requires 8 byte alignment 0x7f4cd4239fdc: note: pointer points here 00 00 00 00 a2 1a 08 8a c0 e9 d9 3f a9 58 c8 ad 60 2e b6 3f 0d 00 00 00 4d 7f 00 00 3e c5 32 61 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4ca8234074 for type 'struct value_type', which requires 8 byte alignment 0x7f4ca8234074: note: pointer points here 00 00 00 00 f6 44 07 ec 91 c5 eb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 4c 7f 00 00 ae 28 84 ce ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7f4cd823c254 for type 'struct value_type', which requires 8 byte alignment 0x7f4cd823c254: note: pointer points here 00 00 00 00 d5 f6 ab 03 fa fd e2 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4c 7f 00 00 76 3a 2d 9a ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f4cf0238a34 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4cf0238a34: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7f4cd823ca8c for type 'struct value_type', which requires 8 byte alignment 0x7f4cd823ca8c: note: pointer points here 4c 7f 00 00 4a 94 00 c9 67 fe e2 3f 03 aa f1 d2 4d 62 60 3f 0d 00 00 00 4c 7f 00 00 1f b2 a3 a5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7f4cec0fd724 for type 'struct value_type', which requires 8 byte alignment 0x7f4cec0fd724: note: pointer points here 00 00 00 00 d6 f6 ab 03 fa fd e2 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4c 7f 00 00 7a 3a 2d 9a ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f4d042060a4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d042060a4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7f4cac242224 for type 'struct value_type', which requires 8 byte alignment 0x7f4cac242224: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f4d3427b9e4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d3427b9e4: note: pointer points here ff ff ff ff ff ff ef 7f ff ff ff ff ff ff ef 7f ff ff ff ff ff ff ef 7f 01 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f4cc41abb4c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4cc41abb4c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4c842ac434 for type 'struct value_type', which requires 8 byte alignment 0x7f4c842ac434: note: pointer points here 00 00 00 00 d7 f6 ab 03 fa fd e2 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 4c 7f 00 00 75 3a 2d 9a ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f4d1815eedc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d1815eedc: note: pointer points here 00 00 00 00 8f 06 00 00 90 06 00 00 b5 06 00 00 b6 06 00 00 b7 06 00 00 b8 06 00 00 dd 06 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4ca023219c for type 'struct value_type', which requires 8 byte alignment 0x7f4ca023219c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 75 d1 45 17 5d 74 d1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4ce81aabd4 for type 'struct value_type', which requires 8 byte alignment 0x7f4ce81aabd4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 17 5d 74 d1 45 17 ed 3f 0c 00 00 00 00 00 f0 3f 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cf0238d7c for type 'struct value_type', which requires 8 byte alignment 0x7f4cf0238d7c: note: pointer points here 00 00 f0 3f cc 09 8a 21 cd 2d e0 3f 17 5d 74 d1 45 17 ed 3f 0d 00 00 00 00 00 f0 3f e1 01 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4c8823e724 for type 'struct value_type', which requires 8 byte alignment 0x7f4c8823e724: note: pointer points here 00 00 00 00 fe 75 02 cd b2 02 da 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4c 7f 00 00 fd 1d 54 e9 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7f4c98231e1c for type 'struct value_type', which requires 8 byte alignment 0x7f4c98231e1c: note: pointer points here 4c 7f 00 00 00 1e 54 e9 54 4f d9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 4c 7f 00 00 1f fe d0 3f ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f4d14005894 for type 'struct type', which requires 8 byte alignment 0x7f4d14005894: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cb823bfec for type 'struct value_type', which requires 8 byte alignment 0x7f4cb823bfec: note: pointer points here 00 00 f0 3f f2 c9 8d df ee 90 ee 3f 75 d1 45 17 5d 74 e1 3f 0d 00 00 00 00 00 f0 3f e1 01 cb 3f ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x55ea7725ba74 for type 'const struct value_type', which requires 8 byte alignment 0x55ea7725ba74: note: pointer points here 00 00 00 00 fc 12 68 5a 2c a8 70 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7f4cf422b934 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4cf422b934: note: pointer points here 00 00 00 00 78 b9 f8 3f 16 57 aa 00 8d 9f f8 3f da db 9b 30 a1 85 f8 3f 9c 60 8d 60 b5 6b f8 3f ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f4d1001ef44 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d1001ef44: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cfc24087c for type 'struct value_type', which requires 8 byte alignment 0x7f4cfc24087c: note: pointer points here 00 00 00 00 ac 6a 52 6d 95 13 ec 3f 37 2e 77 14 1e ac b7 3f 0d 00 00 00 4d 7f 00 00 2f ec f4 d8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7f4c9023f914 for type 'struct value_type', which requires 8 byte alignment 0x7f4c9023f914: note: pointer points here 00 00 00 00 45 af b7 58 48 db c0 3f 42 54 2d c2 6b 23 b7 3f 0d 00 00 00 4c 7f 00 00 e0 b9 27 9d ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7f4c9c23ac14 for type 'const struct value_type', which requires 8 byte alignment 0x7f4c9c23ac14: note: pointer points here 00 00 00 00 64 ad 17 9b 43 3a e0 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d24098204 for type 'struct value_type', which requires 8 byte alignment 0x7f4d24098204: note: pointer points here 00 00 00 00 64 ad 17 9b 43 3a e0 3f 75 d1 45 17 5d 74 d1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7f4ca4240eec for type 'struct value_type', which requires 8 byte alignment 0x7f4ca4240eec: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 74 d1 45 17 5d 74 d1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7f4cc81abb64 for type 'struct value_type', which requires 8 byte alignment 0x7f4cc81abb64: note: pointer points here 00 00 00 00 f6 1d 54 e9 54 4f d9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4d 7f 00 00 fd 75 02 cd ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7f4c802b00a4 for type 'struct value_type', which requires 8 byte alignment 0x7f4c802b00a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 75 d1 45 17 5d 74 d1 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7f4c9423ee44 for type 'struct value_type', which requires 8 byte alignment 0x7f4c9423ee44: note: pointer points here 00 00 00 00 a9 cd 96 e1 90 9a b7 3f 75 d1 45 17 5d 74 d1 3f 0d 00 00 00 00 00 f0 3f 3f 1a 31 a9 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7f4cd823ca8c for type 'struct value_type', which requires 8 byte alignment 0x7f4cd823ca8c: note: pointer points here 4c 7f 00 00 4a 94 00 c9 67 fe e2 3f 03 aa f1 d2 4d 62 60 3f 0d 00 00 00 4c 7f 00 00 1f b2 a3 a5 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f4ccc2a4544 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4ccc2a4544: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4c6423f64c for type 'struct value_type', which requires 8 byte alignment 0x7f4c6423f64c: note: pointer points here 4c 7f 00 00 ae 28 84 ce 52 18 ec 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 4c 7f 00 00 53 01 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f4c6c23dd64 for type 'const struct value_type', which requires 8 byte alignment 0x7f4c6c23dd64: note: pointer points here 00 00 00 00 3b 6d f0 6d 3a fd c0 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 4c 7f 00 00 81 b4 1a f8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4c8c234ed4 for type 'struct value_type', which requires 8 byte alignment 0x7f4c8c234ed4: note: pointer points here 00 00 00 00 80 19 fc db 65 18 e3 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 00 00 f0 3f 8e 4f 6e fc ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7f4cd423a39c for type 'struct value_type', which requires 8 byte alignment 0x7f4cd423a39c: note: pointer points here 4d 7f 00 00 87 82 d6 f5 11 02 da 3f 32 61 ce d6 0f df 60 3f 0d 00 00 00 4d 7f 00 00 9b 0e 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f4d1c1c708c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d1c1c708c: note: pointer points here 41 02 00 00 00 00 00 00 b0 ce 10 1c 4d 7f 00 00 90 00 00 1c 4d 7f 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cc0239dc4 for type 'struct value_type', which requires 8 byte alignment 0x7f4cc0239dc4: note: pointer points here 00 00 00 00 7a 3a 2d 9a 05 7e e3 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4d 7f 00 00 d6 f6 ab 03 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7f4c70230ba4 for type 'const struct value_type', which requires 8 byte alignment 0x7f4c70230ba4: note: pointer points here 00 00 00 00 fa 75 02 cd b2 02 da 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 4c 7f 00 00 00 1e 54 e9 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cbc2a30d4 for type 'struct value_type', which requires 8 byte alignment 0x7f4cbc2a30d4: note: pointer points here 00 00 00 00 f6 44 07 ec 91 c5 eb 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4d 7f 00 00 a8 28 84 ce ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d081e8a8c for type 'struct value_type', which requires 8 byte alignment 0x7f4d081e8a8c: note: pointer points here 00 00 f0 3f 13 81 fc 19 35 81 dd 3f 45 17 5d 74 d1 45 e7 3f 0d 00 00 00 00 00 f0 3f 8c 87 dd 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7f4ce4244294 for type 'struct value_type', which requires 8 byte alignment 0x7f4ce4244294: note: pointer points here 00 00 00 00 32 6d f0 6d 3a fd c0 3f 00 00 00 00 00 00 00 00 0c 00 00 00 4c 7f 00 00 95 b4 1a f8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7f4ca823454c for type 'struct value_type', which requires 8 byte alignment 0x7f4ca823454c: note: pointer points here 00 00 00 00 b8 ea 84 53 8d d0 eb 3f f2 f0 e4 ce 1f 67 b5 3f 0d 00 00 00 4c 7f 00 00 e0 5e cf 32 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7f4c68230b54 for type 'const struct value_type', which requires 8 byte alignment 0x7f4c68230b54: note: pointer points here 00 00 00 00 d7 f6 ab 03 fa fd e2 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 4c 7f 00 00 75 3a 2d 9a ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f4cd0235994 for type 'struct type', which requires 8 byte alignment 0x7f4cd0235994: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f4d0c2e76f4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d0c2e76f4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4c7c2305e4 for type 'struct value_type', which requires 8 byte alignment 0x7f4c7c2305e4: note: pointer points here 00 00 00 00 a9 cd 96 e1 90 9a b7 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 00 00 f0 3f 3f 1a 31 a9 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7f4d2817794c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d2817794c: note: pointer points here 00 00 00 00 33 33 e3 3f cd cc cc cc cc cc e4 3f 67 66 66 66 66 66 e6 3f 01 00 00 00 ff ff ff ff ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f4cdc1f1cf4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4cdc1f1cf4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55ea7725ba8c for type 'struct value_type', which requires 8 byte alignment 0x55ea7725ba8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 09 f1 ff 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x55ea7725ba8c for type 'struct value_type', which requires 8 byte alignment 0x55ea7725ba8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 09 f1 ff 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55ea7725ba8c for type 'struct value_type', which requires 8 byte alignment 0x55ea7725ba8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 09 f1 ff 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x55ea7725ba8c for type 'struct value_type', which requires 8 byte alignment 0x55ea7725ba8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 09 f1 ff 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x55ea7725ba8c for type 'struct value_type', which requires 8 byte alignment 0x55ea7725ba8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 09 f1 ff 3f ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f4d201de3f4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d201de3f4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x7f4cec0fd73c for type 'const struct value_type', which requires 8 byte alignment 0x7f4cec0fd73c: note: pointer points here 4c 7f 00 00 7a 3a 2d 9a 05 7e e3 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 4c 7f 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x7f4cf422b8c4 for type 'struct value_type', which requires 8 byte alignment 0x7f4cf422b8c4: note: pointer points here 00 00 00 00 64 ad 17 9b 43 3a e0 3f 75 d1 45 17 5d 74 e1 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x55ea7725ba8c for type 'const struct value_type', which requires 8 byte alignment 0x55ea7725ba8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 09 f1 ff 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d2c0b75bc for type 'struct value_type', which requires 8 byte alignment 0x7f4d2c0b75bc: note: pointer points here 47 ab e7 3f cc 09 8a 21 cd 2d e0 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 47 ab e7 3f 54 f8 90 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d2817799c for type 'struct value_type', which requires 8 byte alignment 0x7f4d2817799c: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 99 99 c9 3f ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f4cc41abb7c for type 'const struct value_type', which requires 8 byte alignment 0x7f4cc41abb7c: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 44 17 5d 74 d1 45 d7 3f 0c 00 00 00 00 00 f0 3f ec 26 6b 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d2817799c for type 'struct value_type', which requires 8 byte alignment 0x7f4d2817799c: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 99 99 c9 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7f4c9423ecfc for type 'const struct value_type', which requires 8 byte alignment 0x7f4c9423ecfc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 74 d1 45 17 5d 74 d1 3f 0c 00 00 00 00 00 f0 3f 41 01 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cac24223c for type 'struct value_type', which requires 8 byte alignment 0x7f4cac24223c: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 16 5d 74 d1 45 17 dd 3f 0c 00 00 00 00 00 f0 3f 55 01 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f4c7422cfe4 for type 'const struct value_type', which requires 8 byte alignment 0x7f4c7422cfe4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 75 d1 45 17 5d 74 d1 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f4c9423eccc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4c9423eccc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4cf422ba24 for type 'struct value_type', which requires 8 byte alignment 0x7f4cf422ba24: note: pointer points here 00 00 00 00 a9 cd 96 e1 90 9a a7 3f 75 d1 45 17 5d 74 e1 3f f3 ff ff ff 00 00 f0 3f a9 cd 96 e1 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4ce81aabd4 for type 'struct value_type', which requires 8 byte alignment 0x7f4ce81aabd4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 17 5d 74 d1 45 17 ed 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7f4c8c234d2c for type 'struct value_type', which requires 8 byte alignment 0x7f4c8c234d2c: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 4b 17 5d 74 d1 45 b7 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f4d28177acc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4d28177acc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 72 e3 89 bb ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7f4cc41abb64 for type 'struct value_type', which requires 8 byte alignment 0x7f4cc41abb64: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 3e 17 5d 74 d1 45 d7 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55ea7725ba74 for type 'struct value_type', which requires 8 byte alignment 0x55ea7725ba74: note: pointer points here 00 00 00 00 fc 12 68 5a 2c a8 70 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7f4c802b00bc for type 'struct value_type', which requires 8 byte alignment 0x7f4c802b00bc: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 74 d1 45 17 5d 74 d1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7f4cec0fd73c for type 'struct value_type', which requires 8 byte alignment 0x7f4cec0fd73c: note: pointer points here 4c 7f 00 00 7a 3a 2d 9a 05 7e e3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 4c 7f 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7f4cb823bdb4 for type 'struct value_type', which requires 8 byte alignment 0x7f4cb823bdb4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 75 d1 45 17 5d 74 e1 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d1815eef4 for type 'struct value_type', which requires 8 byte alignment 0x7f4d1815eef4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 75 d1 45 17 5d 74 d1 3f f4 ff ff ff 00 00 f0 3f 64 ad 17 9b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d3427ba4c for type 'struct value_type', which requires 8 byte alignment 0x7f4d3427ba4c: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 4b 17 5d 74 d1 45 b7 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7f4d1001efac for type 'struct value_type', which requires 8 byte alignment 0x7f4d1001efac: note: pointer points here 00 00 f0 3f 64 ad 17 9b 43 3a e0 3f 2f ba e8 a2 8b 2e ea 3f f4 ff ff ff 00 00 f0 3f 41 01 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4ca023219c for type 'struct value_type', which requires 8 byte alignment 0x7f4ca023219c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 75 d1 45 17 5d 74 d1 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7f4d140058e4 for type 'struct value_type', which requires 8 byte alignment 0x7f4d140058e4: note: pointer points here 00 00 00 00 64 ad 17 9b 43 3a e0 3f 16 5d 74 d1 45 17 dd 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f4ca4241034 for type 'struct value_type', which requires 8 byte alignment 0x7f4ca4241034: note: pointer points here 00 00 00 00 a9 cd 96 e1 90 9a b7 3f 75 d1 45 17 5d 74 d1 3f f3 ff ff ff 00 00 f0 3f 3f 1a 31 a9 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4d24098204 for type 'struct value_type', which requires 8 byte alignment 0x7f4d24098204: note: pointer points here 00 00 00 00 64 ad 17 9b 43 3a e0 3f 75 d1 45 17 5d 74 d1 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ --> ocsmCheck() -> status=0 (success) WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "thick" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "sweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "washout" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "xnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "xtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "fuserad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "spar1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting geometric sensitivity wrt "spar2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1115.785 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 5m2.673s user 15m8.462s sys 5m33.404s ++ set +x -------------------------------------------------------------------------------------------------- ( 36 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design6.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "width" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "depth" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "height" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "neckDiam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "neckHeight" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "wall" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "filRad1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting geometric sensitivity wrt "filRad2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 29.185 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m49.237s user 0m37.373s sys 0m0.491s ++ set +x -------------------------------------------------------------------------------------------------- ( 37 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design7.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x56451042d16c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d16c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ff ff ff ff ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x56451042d1bc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x56451042d18c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d18c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct type', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct type', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct type', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x56451042d18c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d18c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x56451042d154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x56451042d214 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d214: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 0d 00 00 00 00 00 00 00 4e 9c a8 a7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 0d 00 00 00 00 00 00 00 4e 9c a8 a7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 0d 00 00 00 00 00 00 00 4e 9c a8 a7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 0d 00 00 00 00 00 00 00 4e 9c a8 a7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 0d 00 00 00 00 00 00 00 4e 9c a8 a7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 0d 00 00 00 00 00 00 00 4e 9c a8 a7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x56451042d1a4 for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x56451042d1a4 for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x56451042d1a4 for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d4cc for type 'struct value_type', which requires 8 byte alignment 0x56451042d4cc: note: pointer points here 00 00 00 00 89 a0 6d de 40 2d 17 40 7a b7 2e 8e 64 2b 17 40 0d 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x56451042d4cc for type 'struct value_type', which requires 8 byte alignment 0x56451042d4cc: note: pointer points here 00 00 00 00 89 a0 6d de 40 2d 17 40 7a b7 2e 8e 64 2b 17 40 0d 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d4cc for type 'struct value_type', which requires 8 byte alignment 0x56451042d4cc: note: pointer points here 00 00 00 00 89 a0 6d de 40 2d 17 40 7a b7 2e 8e 64 2b 17 40 0d 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x56451042d4cc for type 'struct value_type', which requires 8 byte alignment 0x56451042d4cc: note: pointer points here 00 00 00 00 89 a0 6d de 40 2d 17 40 7a b7 2e 8e 64 2b 17 40 0d 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x56451042d1bc for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x56451042d1bc for type 'const struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 0c 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x56451042d1bc for type 'struct value_type', which requires 8 byte alignment 0x56451042d1bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 a6 46 b6 47 b3 53 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 f3 ff ff ff 00 00 00 00 4e 9c a8 a7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x56451042d37c for type 'struct value_type', which requires 8 byte alignment 0x56451042d37c: note: pointer points here 00 00 00 00 96 b4 6c 5e 86 35 ef 3f cf de c0 c3 76 52 17 40 f3 ff ff ff 00 00 00 00 4e 9c a8 a7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x56451042d1a4 for type 'struct value_type', which requires 8 byte alignment 0x56451042d1a4: note: pointer points here 00 00 00 00 11 a0 6f 8f b2 53 17 40 08 d0 4e 32 05 2b 17 40 f4 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x56451042d364 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d364: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 96 b4 6c 5e ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x56451042d18c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x56451042d18c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 11 a0 6f 8f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fc080008c0c for type 'struct value_type', which requires 8 byte alignment 0x7fc080008c0c: note: pointer points here 00 00 00 00 f2 f9 65 b6 e2 b6 ee 3f 55 85 a1 8d 37 1c c0 bf 0d 00 00 00 c0 7f 00 00 e9 19 7b 49 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7fc080008c0c for type 'struct value_type', which requires 8 byte alignment 0x7fc080008c0c: note: pointer points here 00 00 00 00 f2 f9 65 b6 e2 b6 ee 3f 55 85 a1 8d 37 1c c0 bf 0d 00 00 00 c0 7f 00 00 e9 19 7b 49 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fc080008c0c for type 'struct value_type', which requires 8 byte alignment 0x7fc080008c0c: note: pointer points here 00 00 00 00 f2 f9 65 b6 e2 b6 ee 3f 55 85 a1 8d 37 1c c0 bf 0d 00 00 00 c0 7f 00 00 e9 19 7b 49 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7fc09400cf2c for type 'struct value_type', which requires 8 byte alignment 0x7fc09400cf2c: note: pointer points here 00 00 00 00 f2 f9 65 b6 e2 b6 ee 3f 55 85 a1 8d 37 1c c0 bf 0d 00 00 00 c0 7f 00 00 e9 19 7b 49 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fc0800088cc for type 'struct value_type', which requires 8 byte alignment 0x7fc0800088cc: note: pointer points here c0 7f 00 00 04 41 d7 c5 de b7 ee 3f a5 57 bd 0d 7b eb b1 bf f4 ff ff ff c0 7f 00 00 b4 4f 9a 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7fc0800088cc for type 'struct value_type', which requires 8 byte alignment 0x7fc0800088cc: note: pointer points here c0 7f 00 00 04 41 d7 c5 de b7 ee 3f a5 57 bd 0d 7b eb b1 bf f4 ff ff ff c0 7f 00 00 b4 4f 9a 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fc0800088cc for type 'struct value_type', which requires 8 byte alignment 0x7fc0800088cc: note: pointer points here c0 7f 00 00 04 41 d7 c5 de b7 ee 3f a5 57 bd 0d 7b eb b1 bf f4 ff ff ff c0 7f 00 00 b4 4f 9a 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7fc0800088cc for type 'struct value_type', which requires 8 byte alignment 0x7fc0800088cc: note: pointer points here c0 7f 00 00 04 41 d7 c5 de b7 ee 3f a5 57 bd 0d 7b eb b1 bf f4 ff ff ff c0 7f 00 00 b4 4f 9a 3f ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "headLen" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "overallLen" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "shaftDiam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "headAng" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "noseRad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "shldrRad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "finAng" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "finHeight" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "finLen" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "finWidth" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "filRad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting geometric sensitivity wrt "finXlate" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=48 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 119.711 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 2m1.162s user 2m18.274s sys 0m1.368s ++ set +x -------------------------------------------------------------------------------------------------- ( 38 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xbase" for ibody=4 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.2123e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.9637e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 3.3710e-10) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ybase" for ibody=4 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.4687e-18) d(Node)/d(ybase) check complete with 0 total errors (errmax= 2.6880e-10) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "zbase" for ibody=4 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 6.1976e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "L" for ibody=4 d(Face)/d(L) check complete with 0 total errors (errmax= 8.2123e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.9637e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "H" for ibody=4 d(Face)/d(H) check complete with 0 total errors (errmax= 2.3461e-10) d(Edge)/d(H) check complete with 0 total errors (errmax= 5.4169e-18) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "W" for ibody=4 d(Face)/d(W) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(W) check complete with 0 total errors (errmax= 6.1976e-19) d(Node)/d(W) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "t" for ibody=4 d(Face)/d(t) check complete with 0 total errors (errmax= 7.8667e-09) d(Edge)/d(t) check complete with 0 total errors (errmax= 5.7432e-15) d(Node)/d(t) check complete with 0 total errors (errmax= 2.5640e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.111 sec Sensitivity checks complete with 0 total errors (max geom err= 7.8667e-09) with 0 suppressions real 0m1.797s user 0m1.063s sys 0m0.408s ++ set +x -------------------------------------------------------------------------------------------------- ( 39 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xbase" for ibody=4 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.2777e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 5.5638e-19) d(Node)/d(xbase) check complete with 0 total errors (errmax= 2.0890e-10) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ybase" for ibody=4 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.5561e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.4470e-18) d(Node)/d(ybase) check complete with 0 total errors (errmax= 6.4605e-10) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "zbase" for ibody=4 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "L" for ibody=4 d(Face)/d(L) check complete with 0 total errors (errmax= 8.2777e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.5638e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "H" for ibody=4 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0976e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.5613e-13) d(Node)/d(H) check complete with 0 total errors (errmax= 1.5148e-10) ********************************************************* Starting geometric sensitivity wrt "W" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "W" for ibody=4 d(Face)/d(W) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(W) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(W) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "R" for ibody=4 d(Face)/d(R) check complete with 0 total errors (errmax= 4.1389e-08) d(Edge)/d(R) check complete with 0 total errors (errmax= 1.5937e-13) d(Node)/d(R) check complete with 0 total errors (errmax= 3.8459e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.105 sec Sensitivity checks complete with 0 total errors (max geom err= 4.1389e-08) with 0 suppressions real 0m1.941s user 0m1.074s sys 0m0.393s ++ set +x -------------------------------------------------------------------------------------------------- ( 40 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xcent" for ibody=7 d(Face)/d(xcent) check complete with 0 total errors (errmax= 9.4142e-10) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 1.2530e-07) d(Node)/d(xcent) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ycent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ycent" for ibody=7 d(Face)/d(ycent) check complete with 0 total errors (errmax= 1.0101e-09) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.4193e-07) d(Node)/d(ycent) check complete with 0 total errors (errmax= 1.5148e-10) ********************************************************* Starting geometric sensitivity wrt "zcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zcent" for ibody=7 d(Face)/d(zcent) check complete with 0 total errors (errmax= 9.9215e-10) d(Edge)/d(zcent) check complete with 0 total errors (errmax= 1.4151e-07) d(Node)/d(zcent) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "L" for ibody=7 d(Face)/d(L) check complete with 0 total errors (errmax= 1.0198e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.4153e-07) d(Node)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "H" for ibody=7 d(Face)/d(H) check complete with 0 total errors (errmax= 3.7005e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.6682e-07) d(Node)/d(H) check complete with 0 total errors (errmax= 1.3539e-07) ********************************************************* Starting geometric sensitivity wrt "W" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "W" for ibody=7 d(Face)/d(W) check complete with 0 total errors (errmax= 1.8788e-08) d(Edge)/d(W) check complete with 0 total errors (errmax= 2.6902e-07) d(Node)/d(W) check complete with 0 total errors (errmax= 6.2993e-08) ********************************************************* Starting geometric sensitivity wrt "t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "t" for ibody=7 d(Face)/d(t) check complete with 0 total errors (errmax= 1.8690e-08) d(Edge)/d(t) check complete with 0 total errors (errmax= 1.4185e-07) d(Node)/d(t) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.240 sec Sensitivity checks complete with 0 total errors (max geom err= 2.6902e-07) with 0 suppressions real 0m3.824s user 0m3.781s sys 0m0.420s ++ set +x -------------------------------------------------------------------------------------------------- ( 41 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xcent" for ibody=1 d(Face)/d(xcent) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(xcent) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ycent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ycent" for ibody=1 d(Face)/d(ycent) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(ycent) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zcent" for ibody=1 d(Face)/d(zcent) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zcent) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(zcent) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "L" for ibody=1 d(Face)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "H" for ibody=1 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "W" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "W" for ibody=1 d(Face)/d(W) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(W) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(W) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.023 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m0.853s user 0m0.499s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 42 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xbeg1" for ibody=4 d(Face)/d(xbeg1) check complete with 0 total errors (errmax= 5.8964e-11) d(Edge)/d(xbeg1) check complete with 0 total errors (errmax= 2.8349e-18) d(Node)/d(xbeg1) check complete with 0 total errors (errmax= 7.6919e-10) ********************************************************* Starting geometric sensitivity wrt "xend1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "xend1" for ibody=4 d(Face)/d(xend1) check complete with 0 total errors (errmax= 5.1047e-11) d(Edge)/d(xend1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xend1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "y1" for ibody=4 d(Face)/d(y1) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 1.6505e-17) d(Node)/d(y1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "z1" for ibody=4 d(Face)/d(z1) check complete with 0 total errors (errmax= 1.1919e-07) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.2365e-11) d(Node)/d(z1) check complete with 0 total errors (errmax= 6.2245e-07) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "r1" for ibody=4 d(Face)/d(r1) check complete with 0 total errors (errmax= 6.5919e-08) d(Edge)/d(r1) check complete with 0 total errors (errmax= 6.5808e-12) d(Node)/d(r1) check complete with 0 total errors (errmax= 4.6700e-07) ********************************************************* Starting geometric sensitivity wrt "th1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "th1" for ibody=4 d(Face)/d(th1) check complete with 0 total errors (errmax= 5.8265e-11) d(Edge)/d(th1) check complete with 0 total errors (errmax= 8.3070e-16) d(Node)/d(th1) check complete with 0 total errors (errmax= 4.8914e-10) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "x2" for ibody=4 d(Face)/d(x2) check complete with 0 total errors (errmax= 7.9787e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 3.0423e-17) d(Node)/d(x2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "z2" for ibody=4 d(Face)/d(z2) check complete with 0 total errors (errmax= 1.1919e-07) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.1670e-11) d(Node)/d(z2) check complete with 0 total errors (errmax= 6.2235e-07) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "r2" for ibody=4 d(Face)/d(r2) check complete with 0 total errors (errmax= 2.7406e-08) d(Edge)/d(r2) check complete with 0 total errors (errmax= 2.3261e-12) d(Node)/d(r2) check complete with 0 total errors (errmax= 2.5000e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.044 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2245e-07) with 0 suppressions real 0m4.967s user 0m4.289s sys 0m0.456s ++ set +x -------------------------------------------------------------------------------------------------- ( 43 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design9.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f088434c054 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f088434c054: note: pointer points here ff ff ff ff 00 00 00 00 34 00 00 00 00 00 00 00 5c 6c 88 74 0f 7f 00 00 20 2f 00 84 08 7f 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7f089c002c1c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f089c002c1c: note: pointer points here 00 00 00 00 f7 fa 4c 3f b4 54 d2 18 97 b7 13 bf 1c a7 0e 67 24 4d bc 3f 52 a2 d0 62 ff ff ff ff ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f086c349aac for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f086c349aac: note: pointer points here 06 ff 5c 5d 2a 71 d5 3f 63 2c f8 46 1c 34 28 40 20 4c 2a 27 1f b0 1a bc 0d e3 a4 73 0b d8 c8 3f ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f089c002c04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f089c002c04: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 af 29 18 36 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f088434c054 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f088434c054: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 f0 dd 96 67 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f087c34b434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f087c34b434: note: pointer points here ff ff ff ff 8b 48 05 40 4c be a2 a1 24 3d d5 bf 36 eb 63 0d c9 83 e3 3f 90 f9 ff ff ff ff 07 40 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f089c002c04 for type 'struct type', which requires 8 byte alignment 0x7f089c002c04: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 af 29 18 36 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f087c34b434 for type 'struct type', which requires 8 byte alignment 0x7f087c34b434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 aa 29 18 36 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f089c002c04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f089c002c04: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 af 29 18 36 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f088434c054 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f088434c054: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 f0 dd 96 67 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f089c002c04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f089c002c04: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 af 29 18 36 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7f088434c054 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f088434c054: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 f0 dd 96 67 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f088434c054 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f088434c054: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 f0 dd 96 67 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f086c349a7c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f086c349a7c: note: pointer points here 00 00 00 00 8c 35 cf 3f ea 81 ce 13 45 d0 29 40 89 f5 d9 1c 11 ae fb 3f f6 99 1f ec 66 86 d2 3f ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f088434c054 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f088434c054: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 f0 dd 96 67 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7f086c349b04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f086c349b04: note: pointer points here 00 00 00 00 8c c2 04 40 a5 2f 1f 54 3c 4b d5 3f 72 e9 1d cd 30 37 28 40 72 5a 96 c1 83 fc 27 bc ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f087c34b434 for type 'struct type', which requires 8 byte alignment 0x7f087c34b434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 aa 29 18 36 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7f086c349a94 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f 0c 00 00 00 00 00 f0 3f 03 de 96 67 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f089c002c3c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f089c002c3c: note: pointer points here 00 00 00 00 ed e4 ef 3f 02 f2 3f 88 24 4d bc 3f 02 56 cb 63 4a c8 d9 3f e4 ef ce c6 68 e4 ef 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7f089c002c54 for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c54: note: pointer points here 00 00 00 00 af 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 00 00 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f086c349a94 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f 0c 00 00 00 00 00 f0 3f 03 de 96 67 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c474 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c474: note: pointer points here 00 00 00 00 1d b9 66 c8 c2 4b e6 3f fc a9 f1 d2 4d 62 60 3f 0d 00 00 00 73 00 69 00 ef da 9b ef ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x7f089c00300c for type 'struct value_type', which requires 8 byte alignment 0x7f089c00300c: note: pointer points here 00 00 00 00 e7 47 15 2b f5 34 ce 3f 19 90 6e 74 73 4e be 3f 0d 00 00 00 00 00 f0 3f a9 ff 51 5a ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7f088434c474 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c474: note: pointer points here 00 00 00 00 1d b9 66 c8 c2 4b e6 3f fc a9 f1 d2 4d 62 60 3f 0d 00 00 00 73 00 69 00 ef da 9b ef ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f089c00300c for type 'struct value_type', which requires 8 byte alignment 0x7f089c00300c: note: pointer points here 00 00 00 00 e7 47 15 2b f5 34 ce 3f 19 90 6e 74 73 4e be 3f 0d 00 00 00 00 00 f0 3f a9 ff 51 5a ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7f088434c474 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c474: note: pointer points here 00 00 00 00 1d b9 66 c8 c2 4b e6 3f fc a9 f1 d2 4d 62 60 3f 0d 00 00 00 73 00 69 00 ef da 9b ef ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f089c002c54 for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c54: note: pointer points here 00 00 00 00 af 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f086c349e64 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349e64: note: pointer points here 00 00 00 00 56 0e 2d b2 9d ef ef 3f 8e 65 89 f5 88 3d ce 3f 0d 00 00 00 00 00 f0 3f a9 f5 25 21 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f089c002c6c for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f 0c 00 00 00 00 00 f0 3f 71 e5 ef 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7f086c349aac for type 'struct value_type', which requires 8 byte alignment 0x7f086c349aac: note: pointer points here 00 00 f0 3f 03 de 96 67 3f 41 e6 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 00 00 f0 3f 0b d8 c8 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7f088434c0a4 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f086c349a94 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f f4 ff ff ff 00 00 f0 3f 03 de 96 67 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f088434c0a4 for type 'const struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f088434c0a4 for type 'const struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7f086c349a94 for type 'const struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f f4 ff ff ff 00 00 f0 3f 03 de 96 67 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f088434c0a4 for type 'const struct value_type', which requires 8 byte alignment 0x7f088434c0a4: note: pointer points here 00 00 00 00 f0 dd 96 67 3f 41 e6 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7f087c34b484 for type 'const struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c474 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c474: note: pointer points here 00 00 00 00 1d b9 66 c8 c2 4b e6 3f fc a9 f1 d2 4d 62 60 3f 0d 00 00 00 73 00 69 00 ef da 9b ef ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7f086c349a94 for type 'const struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f f4 ff ff ff 00 00 f0 3f 03 de 96 67 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c474 for type 'struct value_type', which requires 8 byte alignment 0x7f088434c474: note: pointer points here 00 00 00 00 1d b9 66 c8 c2 4b e6 3f fc a9 f1 d2 4d 62 60 3f 0d 00 00 00 73 00 69 00 ef da 9b ef ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7f087c34bb54 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34bb54: note: pointer points here 00 00 f0 3f 05 ca 9f 9d 8c 7d d3 3f 56 0e 2d b2 9d ef ef 3f 0d 00 00 00 00 00 f0 3f 96 cb da c6 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7f089c002c6c for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f 0c 00 00 00 00 00 f0 3f 71 e5 ef 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7f086c349e64 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349e64: note: pointer points here 00 00 00 00 56 0e 2d b2 9d ef ef 3f 8e 65 89 f5 88 3d ce 3f 0d 00 00 00 00 00 f0 3f a9 f5 25 21 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b49c for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b49c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 2c 70 8c 99 44 2f cd 3f 0c 00 00 00 00 00 f0 3f 0b d3 d4 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x7f088434c0bc for type 'const struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7f088434c0bc for type 'const struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f087c34b49c for type 'const struct value_type', which requires 8 byte alignment 0x7f087c34b49c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 2c 70 8c 99 44 2f cd 3f 0c 00 00 00 00 00 f0 3f 0b d3 d4 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f086c349aac for type 'struct value_type', which requires 8 byte alignment 0x7f086c349aac: note: pointer points here 00 00 f0 3f 03 de 96 67 3f 41 e6 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 00 00 f0 3f 0b d8 c8 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7f086c349a94 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f f4 ff ff ff 00 00 f0 3f 03 de 96 67 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7f086c349a94 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f f4 ff ff ff 00 00 f0 3f 03 de 96 67 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b49c for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b49c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 2c 70 8c 99 44 2f cd 3f f4 ff ff ff 00 00 f0 3f 0b d3 d4 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7f086c349aac for type 'struct value_type', which requires 8 byte alignment 0x7f086c349aac: note: pointer points here 00 00 f0 3f 03 de 96 67 3f 41 e6 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 0b d8 c8 3f ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f089c002c6c for type 'const struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f 0c 00 00 00 00 00 f0 3f 71 e5 ef 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f089c002c6c for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f f4 ff ff ff 00 00 f0 3f 71 e5 ef 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b854 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b854: note: pointer points here 00 00 00 00 fc a9 f1 d2 4d 62 60 3f 25 fc ea 6a 7d 3c ce 3f f3 ff ff ff 00 00 f0 3f 3f d6 b7 3e ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7f089c002c6c for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f f4 ff ff ff 00 00 f0 3f 71 e5 ef 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f087c34b854 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b854: note: pointer points here 00 00 00 00 fc a9 f1 d2 4d 62 60 3f 25 fc ea 6a 7d 3c ce 3f f3 ff ff ff 00 00 f0 3f 3f d6 b7 3e ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f089c002c6c for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f f4 ff ff ff 00 00 f0 3f 71 e5 ef 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7f089c002c6c for type 'struct value_type', which requires 8 byte alignment 0x7f089c002c6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 c4 e3 9c d9 2e b4 e8 3f f4 ff ff ff 00 00 f0 3f 71 e5 ef 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7f087c34b484 for type 'struct value_type', which requires 8 byte alignment 0x7f087c34b484: note: pointer points here 00 00 00 00 aa 29 18 36 b9 92 d3 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f089c002ff4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f089c002ff4: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 e7 47 15 2b ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f087c34b46c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f087c34b46c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 aa 29 18 36 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7f088434c0bc for type 'struct value_type', which requires 8 byte alignment 0x7f088434c0bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 f0 3f 34 02 12 db f9 b3 e8 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x7f086c349a94 for type 'struct value_type', which requires 8 byte alignment 0x7f086c349a94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f a9 f8 b7 93 18 30 cd 3f f4 ff ff ff 00 00 f0 3f 03 de 96 67 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "fuse[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[1,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.0406e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.9699e-13) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.8786e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[1,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.5910e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.6015e-13) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.5132e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[1,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.5623e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.1004e-13) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8823e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[1,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.5741e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.4286e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 9.7381e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[2,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.4566e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.8449e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.3491e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[2,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.3650e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.1282e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.7312e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[2,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.9219e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.6836e-13) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.8555e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[2,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.9223e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2835e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.2451e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[3,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 8.3506e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.9374e-13) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.3104e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[3,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[3,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.9200e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.3786e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.3885e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[3,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[3,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.4790e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.7525e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.2575e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[3,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[3,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.4788e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2136e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.4620e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[4,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.0182e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.0095e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.1650e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[4,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[4,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.8925e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.8557e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 9.1313e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[4,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[4,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2267e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.5350e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.6194e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[4,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[4,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2262e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.8413e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.3617e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[5,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 6.1555e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.1575e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8774e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[5,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[5,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.0441e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.5061e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.9597e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[5,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[5,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.1398e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6147e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.7463e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[5,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[5,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.1363e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.4823e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4378e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[6,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[6,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.5016e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 9.8009e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.5242e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[6,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[6,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.5025e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.0501e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.2060e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[6,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[6,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2549e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.2579e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.8865e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[6,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[6,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2619e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.0752e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.2585e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[7,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[7,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.1039e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.2621e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.4488e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[7,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[7,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.9907e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2358e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.1659e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[7,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[7,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.8144e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.3277e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.1025e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[7,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[7,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.8261e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.5538e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.2664e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[8,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[8,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.5005e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.5034e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.2808e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[8,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[8,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.4739e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.9309e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.1165e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[8,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[8,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.1737e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.0060e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.9689e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[8,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[8,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.1812e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6450e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.1452e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[9,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[9,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.2364e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.9528e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.8620e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[9,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[9,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.1756e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.8744e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.3586e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[9,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[9,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.5805e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.6786e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.0216e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[9,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[9,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.5836e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.9697e-08) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.2510e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[10,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[10,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.8968e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.3157e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.2246e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[10,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[10,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.6649e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6062e-10) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.5342e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[10,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[10,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.8777e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.0937e-08) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.6576e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[10,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[10,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.8808e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.1769e-08) d(Node)/d(fuse) check complete with 0 total errors (errmax= 9.2567e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[11,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[11,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.0326e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.1739e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8286e-07) ********************************************************* Starting geometric sensitivity wrt "fuse[11,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[11,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.9286e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.6914e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.0932e-05) ********************************************************* Starting geometric sensitivity wrt "fuse[11,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[11,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 9.1294e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.9007e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.1926e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[11,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[11,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 9.1142e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.9686e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.4582e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[12,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[12,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 6.6692e-10) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.0137e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.2589e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[12,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[12,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.5176e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.0514e-09) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.1182e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[12,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[12,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.7561e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.2845e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.6813e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[12,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[12,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.7612e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.8908e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.6141e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[13,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[13,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.4852e-10) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.5532e-11) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.5927e-07) ********************************************************* Starting geometric sensitivity wrt "fuse[13,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[13,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2186e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.4521e-08) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8982e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[13,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[13,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.7329e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 9.8186e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4528e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[13,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[13,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.7309e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6292e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.1129e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[14,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[14,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.9794e-10) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.2073e-13) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.1106e-07) ********************************************************* Starting geometric sensitivity wrt "fuse[14,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[14,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.0771e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6437e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8803e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[14,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[14,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.3710e-05) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.0445e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4385e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[14,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[14,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.3701e-05) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.0333e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.0330e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[15,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[15,1]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 6.9887e-10) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.8973e-12) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.2248e-06) ********************************************************* Starting geometric sensitivity wrt "fuse[15,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[15,2]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.8561e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.1208e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.3905e-04) ********************************************************* Starting geometric sensitivity wrt "fuse[15,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[15,3]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.1807e-05) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.6914e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0642e-03) ********************************************************* Starting geometric sensitivity wrt "fuse[15,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "fuse[15,4]" for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.1817e-05) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.4507e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.9422e-04) ********************************************************* Starting geometric sensitivity wrt "wing[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[1,1]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 2.2870e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 7.6392e-11) d(Node)/d(wing) check complete with 0 total errors (errmax= 6.5450e-06) ********************************************************* Starting geometric sensitivity wrt "wing[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[1,2]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 9.9336e-08) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.6141e-09) d(Node)/d(wing) check complete with 0 total errors (errmax= 4.4312e-03) ********************************************************* Starting geometric sensitivity wrt "wing[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[1,3]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.0437e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 2.5971e-09) d(Node)/d(wing) check complete with 0 total errors (errmax= 5.2011e-03) ********************************************************* Starting geometric sensitivity wrt "wing[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[1,4]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.3591e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.0098e-10) d(Node)/d(wing) check complete with 0 total errors (errmax= 2.5678e-06) ********************************************************* Starting geometric sensitivity wrt "wing[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[1,5]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 8.3477e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.9142e-11) d(Node)/d(wing) check complete with 0 total errors (errmax= 7.5610e-06) ********************************************************* Starting geometric sensitivity wrt "wing[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[2,1]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.3263e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.2753e-11) d(Node)/d(wing) check complete with 0 total errors (errmax= 7.5184e-06) ********************************************************* Starting geometric sensitivity wrt "wing[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[2,2]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.2774e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.5943e-09) d(Node)/d(wing) check complete with 0 total errors (errmax= 5.0912e-03) ********************************************************* Starting geometric sensitivity wrt "wing[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[2,3]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 8.6738e-08) d(Edge)/d(wing) check complete with 0 total errors (errmax= 2.5121e-09) d(Node)/d(wing) check complete with 0 total errors (errmax= 5.9763e-03) ********************************************************* Starting geometric sensitivity wrt "wing[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[2,4]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 2.2950e-06) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.5600e-10) d(Node)/d(wing) check complete with 0 total errors (errmax= 1.0155e-06) ********************************************************* Starting geometric sensitivity wrt "wing[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[2,5]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 3.4398e-08) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.2174e-12) d(Node)/d(wing) check complete with 0 total errors (errmax= 1.5038e-06) ********************************************************* Starting geometric sensitivity wrt "wing[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[3,1]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 4.5672e-10) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.8211e-17) d(Node)/d(wing) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "wing[3,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[3,2]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 3.1167e-10) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.8211e-17) d(Node)/d(wing) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "wing[3,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[3,3]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 3.1167e-10) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.8211e-17) d(Node)/d(wing) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "wing[3,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[3,4]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 2.1925e-06) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.5603e-10) d(Node)/d(wing) check complete with 0 total errors (errmax= 3.9433e-10) ********************************************************* Starting geometric sensitivity wrt "wing[3,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "wing[3,5]" for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.6542e-08) d(Edge)/d(wing) check complete with 0 total errors (errmax= 7.2044e-15) d(Node)/d(wing) check complete with 0 total errors (errmax= 4.1710e-10) ********************************************************* Starting geometric sensitivity wrt "xroot_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "xroot_h" for ibody=84 d(Face)/d(xroot_h) check complete with 0 total errors (errmax= 5.9636e-10) d(Edge)/d(xroot_h) check complete with 0 total errors (errmax= 3.5730e-11) d(Node)/d(xroot_h) check complete with 0 total errors (errmax= 3.2767e-06) ********************************************************* Starting geometric sensitivity wrt "zroot_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "zroot_h" for ibody=84 d(Face)/d(zroot_h) check complete with 0 total errors (errmax= 1.4001e-07) d(Edge)/d(zroot_h) check complete with 0 total errors (errmax= 4.4402e-08) d(Node)/d(zroot_h) check complete with 0 total errors (errmax= 8.2141e-03) ********************************************************* Starting geometric sensitivity wrt "aroot_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "aroot_h" for ibody=84 d(Face)/d(aroot_h) check complete with 0 total errors (errmax= 2.8060e-08) d(Edge)/d(aroot_h) check complete with 0 total errors (errmax= 2.1622e-13) d(Node)/d(aroot_h) check complete with 0 total errors (errmax= 1.4806e-07) ********************************************************* Starting geometric sensitivity wrt "area_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "area_h" for ibody=84 d(Face)/d(area_h) check complete with 0 total errors (errmax= 1.5520e-07) d(Edge)/d(area_h) check complete with 0 total errors (errmax= 1.1157e-11) d(Node)/d(area_h) check complete with 0 total errors (errmax= 3.6229e-08) ********************************************************* Starting geometric sensitivity wrt "taper_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "taper_h" for ibody=84 d(Face)/d(taper_h) check complete with 0 total errors (errmax= 1.3569e-06) d(Edge)/d(taper_h) check complete with 0 total errors (errmax= 8.8560e-10) d(Node)/d(taper_h) check complete with 0 total errors (errmax= 4.4921e-07) ********************************************************* Starting geometric sensitivity wrt "aspect_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "aspect_h" for ibody=84 d(Face)/d(aspect_h) check complete with 0 total errors (errmax= 3.0454e-07) d(Edge)/d(aspect_h) check complete with 0 total errors (errmax= 4.3326e-11) d(Node)/d(aspect_h) check complete with 0 total errors (errmax= 6.9641e-08) ********************************************************* Starting geometric sensitivity wrt "sweep_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "sweep_h" for ibody=84 d(Face)/d(sweep_h) check complete with 0 total errors (errmax= 5.6510e-10) d(Edge)/d(sweep_h) check complete with 0 total errors (errmax= 5.3469e-13) d(Node)/d(sweep_h) check complete with 0 total errors (errmax= 2.5868e-08) ********************************************************* Starting geometric sensitivity wrt "dihed_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "dihed_h" for ibody=84 d(Face)/d(dihed_h) check complete with 0 total errors (errmax= 5.8332e-10) d(Edge)/d(dihed_h) check complete with 0 total errors (errmax= 1.1380e-12) d(Node)/d(dihed_h) check complete with 0 total errors (errmax= 4.1288e-05) ********************************************************* Starting geometric sensitivity wrt "twist_h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "twist_h" for ibody=84 d(Face)/d(twist_h) check complete with 0 total errors (errmax= 3.2946e-09) d(Edge)/d(twist_h) check complete with 0 total errors (errmax= 3.3100e-13) d(Node)/d(twist_h) check complete with 0 total errors (errmax= 9.5462e-09) ********************************************************* Starting geometric sensitivity wrt "xroot_v" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "xroot_v" for ibody=84 d(Face)/d(xroot_v) check complete with 0 total errors (errmax= 9.3273e-10) d(Edge)/d(xroot_v) check complete with 0 total errors (errmax= 1.6521e-11) d(Node)/d(xroot_v) check complete with 0 total errors (errmax= 4.1501e-07) ********************************************************* Starting geometric sensitivity wrt "zroot_v" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "zroot_v" for ibody=84 d(Face)/d(zroot_v) check complete with 0 total errors (errmax= 9.2153e-10) d(Edge)/d(zroot_v) check complete with 0 total errors (errmax= 7.3609e-11) d(Node)/d(zroot_v) check complete with 0 total errors (errmax= 5.8347e-07) ********************************************************* Starting geometric sensitivity wrt "area_v" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "area_v" for ibody=84 d(Face)/d(area_v) check complete with 0 total errors (errmax= 1.8205e-08) d(Edge)/d(area_v) check complete with 0 total errors (errmax= 3.0683e-11) d(Node)/d(area_v) check complete with 0 total errors (errmax= 5.9275e-08) ********************************************************* Starting geometric sensitivity wrt "taper_v" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "taper_v" for ibody=84 d(Face)/d(taper_v) check complete with 0 total errors (errmax= 2.6593e-07) d(Edge)/d(taper_v) check complete with 0 total errors (errmax= 6.3681e-09) d(Node)/d(taper_v) check complete with 0 total errors (errmax= 1.1891e-06) ********************************************************* Starting geometric sensitivity wrt "aspect_v" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "aspect_v" for ibody=84 d(Face)/d(aspect_v) check complete with 0 total errors (errmax= 5.8027e-08) d(Edge)/d(aspect_v) check complete with 0 total errors (errmax= 3.0528e-10) d(Node)/d(aspect_v) check complete with 0 total errors (errmax= 1.8998e-07) ********************************************************* Starting geometric sensitivity wrt "sweep_v" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=84 Computing finite difference sensitivities for ibody=84 Comparing geometric sensitivities wrt "sweep_v" for ibody=84 d(Face)/d(sweep_v) check complete with 0 total errors (errmax= 3.1167e-10) d(Edge)/d(sweep_v) check complete with 0 total errors (errmax= 6.9628e-13) d(Node)/d(sweep_v) check complete with 0 total errors (errmax= 8.6927e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 92.531 sec Sensitivity checks complete with 65 total errors (max geom err= 8.2141e-03) with 0 suppressions real 24m14.641s user 53m46.716s sys 7m58.003s ++ set +x -------------------------------------------------------------------------------------------------- ( 44 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designA.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "aa[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aa[1,1]" for ibody=3 d(Face)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "aa[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aa[1,2]" for ibody=3 d(Face)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "aa[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aa[1,3]" for ibody=3 d(Face)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "aa[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aa[2,1]" for ibody=3 d(Face)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "aa[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aa[2,2]" for ibody=3 d(Face)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "aa[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aa[2,3]" for ibody=3 d(Face)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aa) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.008 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m0.501s user 0m0.309s sys 0m0.235s ++ set +x -------------------------------------------------------------------------------------------------- ( 45 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "DX" for ibody=19 d(Face)/d(DX) check complete with 0 total errors (errmax= 7.8543e-09) d(Edge)/d(DX) check complete with 0 total errors (errmax= 3.3344e-14) d(Node)/d(DX) check complete with 0 total errors (errmax= 3.9848e-08) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "DY" for ibody=19 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.3324e-08) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.2654e-13) d(Node)/d(DY) check complete with 0 total errors (errmax= 1.2470e-07) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "DZ" for ibody=19 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "move" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "move" for ibody=19 d(Face)/d(move) check complete with 0 total errors (errmax= 2.8260e-11) d(Edge)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "rad" for ibody=19 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.4918e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.6526e-12) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8052e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.148 sec Sensitivity checks complete with 0 total errors (max geom err= 2.8052e-07) with 0 suppressions real 0m4.823s user 0m7.608s sys 0m0.371s ++ set +x -------------------------------------------------------------------------------------------------- ( 46 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "DX" for ibody=22 d(Face)/d(DX) check complete with 0 total errors (errmax= 7.8543e-09) d(Edge)/d(DX) check complete with 0 total errors (errmax= 3.3344e-14) d(Node)/d(DX) check complete with 0 total errors (errmax= 3.9848e-08) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "DY" for ibody=22 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.3324e-08) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.2654e-13) d(Node)/d(DY) check complete with 0 total errors (errmax= 1.2470e-07) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "DZ" for ibody=22 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 7.3267e-20) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "move" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "move" for ibody=22 d(Face)/d(move) check complete with 0 total errors (errmax= 2.8260e-11) d(Edge)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "rad" for ibody=22 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.4918e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.6526e-12) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8052e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.158 sec Sensitivity checks complete with 0 total errors (max geom err= 2.8052e-07) with 0 suppressions real 0m4.765s user 0m6.884s sys 0m0.408s ++ set +x -------------------------------------------------------------------------------------------------- ( 47 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=37 Computing finite difference sensitivities for ibody=37 Comparing geometric sensitivities wrt "DX" for ibody=37 d(Face)/d(DX) check complete with 0 total errors (errmax= 7.8543e-09) d(Edge)/d(DX) check complete with 0 total errors (errmax= 3.3344e-14) d(Node)/d(DX) check complete with 0 total errors (errmax= 3.9848e-08) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=37 Computing finite difference sensitivities for ibody=37 Comparing geometric sensitivities wrt "DY" for ibody=37 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.3324e-08) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.2654e-13) d(Node)/d(DY) check complete with 0 total errors (errmax= 1.2470e-07) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=37 Computing finite difference sensitivities for ibody=37 Comparing geometric sensitivities wrt "DZ" for ibody=37 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 7.3267e-20) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "move" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=37 Computing finite difference sensitivities for ibody=37 Comparing geometric sensitivities wrt "move" for ibody=37 d(Face)/d(move) check complete with 0 total errors (errmax= 2.8260e-11) d(Edge)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=37 Computing finite difference sensitivities for ibody=37 Comparing geometric sensitivities wrt "rad" for ibody=37 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.4918e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.6526e-12) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8052e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.227 sec Sensitivity checks complete with 0 total errors (max geom err= 2.8052e-07) with 0 suppressions real 0m5.473s user 0m7.821s sys 0m0.368s ++ set +x -------------------------------------------------------------------------------------------------- ( 48 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB4.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fb518003c64 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb518003c64: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x55c495cf0c14 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55c495cf0c14: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fb518003c9c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb518003c9c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x55c495cf0c14 for type 'struct type', which requires 8 byte alignment 0x55c495cf0c14: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fb518003c64 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb518003c64: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x55c495cf0c14 for type 'struct type', which requires 8 byte alignment 0x55c495cf0c14: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fb518003c64 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb518003c64: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x55c495cf0c14 for type 'struct type', which requires 8 byte alignment 0x55c495cf0c14: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7fb524006d6c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb524006d6c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fb518003c64 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb518003c64: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7fb524006d3c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb524006d3c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x55c495cf0c14 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55c495cf0c14: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7fb518003c64 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb518003c64: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x55c495cf0cd4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55c495cf0cd4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 47 00 00 00 37 00 00 00 08 00 00 00 03 00 00 00 4b 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7fb534082b84 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb534082b84: note: pointer points here ff ff ff ff b5 7f 00 00 40 db 08 34 b5 7f 00 00 00 00 00 00 00 00 04 c0 dd c2 1a c7 71 1c ff bf ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fb524006d04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb524006d04: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7fb524006d54 for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 8a 83 16 2b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7fb52c0937ec for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb52c0937ec: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x55c495cf0c64 for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0c64: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x55c495cf0c64 for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0c64: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003e44 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003e44: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7fb524006d54 for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x55c495cf0dc4 for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0dc4: note: pointer points here 00 00 00 00 1f 4b 5c 74 d1 45 b7 3f b1 e4 67 66 66 66 e6 3f 0d 00 00 00 00 00 f0 3f 7e 78 5c 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003e44 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003e44: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7fb524006eb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb524006eb4: note: pointer points here 00 00 00 00 1f 4b 5c 74 d1 45 b7 3f b1 e4 67 66 66 66 e6 3f 0d 00 00 00 00 00 f0 3f 7e 78 5c 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7fb518003e44 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003e44: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 73 00 69 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c495cf0dc4 for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0dc4: note: pointer points here 00 00 00 00 1f 4b 5c 74 d1 45 b7 3f b1 e4 67 66 66 66 e6 3f 0d 00 00 00 00 00 f0 3f 7e 78 5c 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c495cf0c7c for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0c7c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 67 66 66 66 66 66 e6 3f 0c 00 00 00 00 00 f0 3f c4 55 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7fb518003ccc for type 'struct value_type', which requires 8 byte alignment 0x7fb518003ccc: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c495cf0c7c for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0c7c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 67 66 66 66 66 66 e6 3f 0c 00 00 00 00 00 f0 3f c4 55 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7fb518003ccc for type 'struct value_type', which requires 8 byte alignment 0x7fb518003ccc: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb534082bd4 for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bd4: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 0c 00 00 00 b5 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7fb52c093824 for type 'struct value_type', which requires 8 byte alignment 0x7fb52c093824: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fb51c081eb4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb51c081eb4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb534082bd4 for type 'const struct value_type', which requires 8 byte alignment 0x7fb534082bd4: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff b5 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7fb51c081f04 for type 'const struct value_type', which requires 8 byte alignment 0x7fb51c081f04: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7fb518003cb4 for type 'const struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7fb51c081f04 for type 'const struct value_type', which requires 8 byte alignment 0x7fb51c081f04: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb534082bd4 for type 'const struct value_type', which requires 8 byte alignment 0x7fb534082bd4: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff b5 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003f34 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003f34: note: pointer points here 73 00 69 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 73 00 69 00 8b 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb52c093824 for type 'const struct value_type', which requires 8 byte alignment 0x7fb52c093824: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb524006d54 for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7fb534082d4c for type 'struct value_type', which requires 8 byte alignment 0x7fb534082d4c: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 b5 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb52c093a5c for type 'struct value_type', which requires 8 byte alignment 0x7fb52c093a5c: note: pointer points here 00 00 f0 3f a8 55 70 d1 45 17 ed 3f 9e 36 30 33 33 33 d3 3f 0d 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c495cf0c64 for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0c64: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7fb534082d4c for type 'struct value_type', which requires 8 byte alignment 0x7fb534082d4c: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 b5 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7fb518003f34 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003f34: note: pointer points here 73 00 69 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 73 00 69 00 8b 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003f34 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003f34: note: pointer points here 73 00 69 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 73 00 69 00 8b 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7fb518003f34 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003f34: note: pointer points here 73 00 69 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 73 00 69 00 8b 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb51c08213c for type 'struct value_type', which requires 8 byte alignment 0x7fb51c08213c: note: pointer points here 00 00 f0 3f a8 55 70 d1 45 17 ed 3f 9e 36 30 33 33 33 d3 3f 0d 00 00 00 00 00 f0 3f e2 36 1a 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb534082bec for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7fb534082bec for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7fb534082bec for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb534082bec for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x7fb534082bec for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb534082bec for type 'const struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x7fb52c09383c for type 'const struct value_type', which requires 8 byte alignment 0x7fb52c09383c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 32 33 33 33 33 33 d3 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb534082bec for type 'const struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7fb52c09383c for type 'const struct value_type', which requires 8 byte alignment 0x7fb52c09383c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 32 33 33 33 33 33 d3 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003ccc for type 'struct value_type', which requires 8 byte alignment 0x7fb518003ccc: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb534082bec for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bec: note: pointer points here b5 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 b5 7f 00 00 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7fb534082bd4 for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bd4: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff b5 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7fb52c09383c for type 'struct value_type', which requires 8 byte alignment 0x7fb52c09383c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 32 33 33 33 33 33 d3 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7fb524006d54 for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb52c09383c for type 'struct value_type', which requires 8 byte alignment 0x7fb52c09383c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 32 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7fb524006d6c for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb52c09383c for type 'struct value_type', which requires 8 byte alignment 0x7fb52c09383c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 32 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb534082bd4 for type 'struct value_type', which requires 8 byte alignment 0x7fb534082bd4: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff b5 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb524006d6c for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb51c082064 for type 'struct value_type', which requires 8 byte alignment 0x7fb51c082064: note: pointer points here 00 00 00 00 c5 52 7d 74 d1 45 b7 3f 9e 36 30 33 33 33 d3 3f f3 ff ff ff 00 00 f0 3f 1b 29 76 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb524006d54 for type 'struct value_type', which requires 8 byte alignment 0x7fb524006d54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7fb534082d4c for type 'struct value_type', which requires 8 byte alignment 0x7fb534082d4c: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f f3 ff ff ff b5 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7fb51c081f04 for type 'struct value_type', which requires 8 byte alignment 0x7fb51c081f04: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fb524006e9c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb524006e9c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 1f 4b 5c 74 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fb534082bbc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb534082bbc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 65 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb518003cb4 for type 'struct value_type', which requires 8 byte alignment 0x7fb518003cb4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7fb52c09383c for type 'struct value_type', which requires 8 byte alignment 0x7fb52c09383c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 32 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x55c495cf0c7c for type 'struct value_type', which requires 8 byte alignment 0x55c495cf0c7c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 67 66 66 66 66 66 e6 3f f4 ff ff ff 00 00 f0 3f c4 55 00 00 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 Computing finite difference sensitivities for ibody=25 Comparing geometric sensitivities wrt "DX" for ibody=25 d(Face)/d(DX) check complete with 0 total errors (errmax= 7.8745e-09) d(Edge)/d(DX) check complete with 0 total errors (errmax= 3.3344e-14) d(Node)/d(DX) check complete with 0 total errors (errmax= 3.9847e-08) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb51c08dd54 for type 'struct value_type', which requires 8 byte alignment 0x7fb51c08dd54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x7fb51c08dd54 for type 'struct value_type', which requires 8 byte alignment 0x7fb51c08dd54: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 d3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ Computing analytic sensitivities (if possible) for ibody=25 Computing finite difference sensitivities for ibody=25 Comparing geometric sensitivities wrt "DY" for ibody=25 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.3324e-08) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.2654e-13) d(Node)/d(DY) check complete with 0 total errors (errmax= 1.2496e-07) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 Computing finite difference sensitivities for ibody=25 Comparing geometric sensitivities wrt "DZ" for ibody=25 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.3631e-10) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.2456e-18) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.4869e-10) ********************************************************* Starting geometric sensitivity wrt "move" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 Computing finite difference sensitivities for ibody=25 Comparing geometric sensitivities wrt "move" for ibody=25 d(Face)/d(move) check complete with 0 total errors (errmax= 1.2891e-10) d(Edge)/d(move) check complete with 0 total errors (errmax= 8.5665e-19) d(Node)/d(move) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 Computing finite difference sensitivities for ibody=25 Comparing geometric sensitivities wrt "rad" for ibody=25 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.4918e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.6541e-12) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8065e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.385 sec Sensitivity checks complete with 0 total errors (max geom err= 2.8065e-07) with 0 suppressions real 0m16.146s user 0m17.135s sys 0m0.671s ++ set +x -------------------------------------------------------------------------------------------------- ( 49 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB5.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7f65e80937ec for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65e80937ec: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ff ff ff ff ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f65fc004c34 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65fc004c34: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f65f0004894 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65f0004894: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f65d80937d4 for type 'struct type', which requires 8 byte alignment 0x7f65d80937d4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 65 3b 3d c5 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f65fc004c34 for type 'struct type', which requires 8 byte alignment 0x7f65fc004c34: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x55c12ab85884 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55c12ab85884: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f65f400665c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65f400665c: note: pointer points here 00 00 00 00 b7 96 44 bf 8a c8 b0 8a 37 32 e3 bf d9 a8 81 e5 ff ff ff 3f b4 3c 8d bf b7 96 44 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x55c12ab85884 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55c12ab85884: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f65f400665c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65f400665c: note: pointer points here 00 00 00 00 b7 96 44 bf 8a c8 b0 8a 37 32 e3 bf d9 a8 81 e5 ff ff ff 3f b4 3c 8d bf b7 96 44 bf ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f65fc004c34 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65fc004c34: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f65ec005b44 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65ec005b44: note: pointer points here ff ff ff ff 99 99 99 bf 00 34 33 33 33 33 a3 bf 70 9a 99 99 99 99 a9 bf 60 00 00 00 00 00 b0 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f65d80937d4 for type 'struct type', which requires 8 byte alignment 0x7f65d80937d4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 65 3b 3d c5 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f65e80937d4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65e80937d4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65ec005b94 for type 'struct value_type', which requires 8 byte alignment 0x7f65ec005b94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 99 99 99 99 99 99 d9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x55c12ab85884 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55c12ab85884: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 8a 83 16 2b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f65e0081f1c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65e0081f1c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 bf 00 00 00 00 00 00 e0 bf 00 00 00 00 00 00 fa bf ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7f65fc004cf4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65fc004cf4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7f65ec005b94 for type 'struct value_type', which requires 8 byte alignment 0x7f65ec005b94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 99 99 99 99 99 99 d9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 fc 7f 00 00 8a 83 16 2b ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f65f4006624 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65f4006624: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 65 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7f65e0081f04 for type 'struct value_type', which requires 8 byte alignment 0x7f65e0081f04: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 e3 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 fc 7f 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7f65f4006674 for type 'struct value_type', which requires 8 byte alignment 0x7f65f4006674: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 0c 00 00 00 66 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65fc004c84 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004c84: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 0c 00 00 00 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7f65d8093824 for type 'struct value_type', which requires 8 byte alignment 0x7f65d8093824: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 0c 00 00 00 65 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f40067ec for type 'struct value_type', which requires 8 byte alignment 0x7f65f40067ec: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 66 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x55c12ab85a64 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab85a64: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 fc 7f 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7f65fc004e14 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004e14: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 73 00 69 00 8a 83 16 2b ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f65f0004894 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65f0004894: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff fc 7f 00 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e0082064 for type 'struct value_type', which requires 8 byte alignment 0x7f65e0082064: note: pointer points here 00 00 00 00 f1 14 62 74 d1 45 b7 3f e8 9e 34 33 33 33 e3 3f 0d 00 00 00 00 00 f0 3f 04 f9 60 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e8093824 for type 'struct value_type', which requires 8 byte alignment 0x7f65e8093824: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 e3 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x55c12ab858ec for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858ec: note: pointer points here fc 7f 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 fc 7f 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7f65e809383c for type 'struct value_type', which requires 8 byte alignment 0x7f65e809383c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7f65fc004c84 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004c84: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7f65ec005b94 for type 'struct value_type', which requires 8 byte alignment 0x7f65ec005b94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 99 99 99 99 99 99 d9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65d809399c for type 'struct value_type', which requires 8 byte alignment 0x7f65d809399c: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 65 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7f65f40067ec for type 'struct value_type', which requires 8 byte alignment 0x7f65f40067ec: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 66 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff fc 7f 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7f65f4006674 for type 'const struct value_type', which requires 8 byte alignment 0x7f65f4006674: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 66 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'const struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff fc 7f 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7f65f4006674 for type 'const struct value_type', which requires 8 byte alignment 0x7f65f4006674: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 66 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f00048fc for type 'struct value_type', which requires 8 byte alignment 0x7f65f00048fc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 99 99 99 99 99 99 d9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7f65e8093824 for type 'struct value_type', which requires 8 byte alignment 0x7f65e8093824: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 e3 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f65d8093824 for type 'const struct value_type', which requires 8 byte alignment 0x7f65d8093824: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 65 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e0081f1c for type 'struct value_type', which requires 8 byte alignment 0x7f65e0081f1c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 00 00 f0 3f 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7f65ec005b94 for type 'const struct value_type', which requires 8 byte alignment 0x7f65ec005b94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 99 99 99 99 99 99 d9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f40067ec for type 'struct value_type', which requires 8 byte alignment 0x7f65f40067ec: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 66 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7f65d809399c for type 'struct value_type', which requires 8 byte alignment 0x7f65d809399c: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f 0d 00 00 00 65 7f 00 00 67 3b 3d c5 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7f65e8093a5c for type 'struct value_type', which requires 8 byte alignment 0x7f65e8093a5c: note: pointer points here 73 00 69 00 62 bd 73 d1 45 17 ed 3f e9 9e 34 33 33 33 e3 3f 0d 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f65fc004c84 for type 'const struct value_type', which requires 8 byte alignment 0x7f65fc004c84: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab85b54 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab85b54: note: pointer points here fc 7f 00 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 fc 7f 00 00 8b 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f0004b1c for type 'struct value_type', which requires 8 byte alignment 0x7f65f0004b1c: note: pointer points here 00 00 f0 3f e9 e9 6d d1 45 17 ed 3f 2e c2 96 99 99 99 d9 3f 0d 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7f65fc004f04 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004f04: note: pointer points here 73 00 69 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 73 00 69 00 8b 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab85b54 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab85b54: note: pointer points here fc 7f 00 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 fc 7f 00 00 8b 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7f65fc004f04 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004f04: note: pointer points here 73 00 69 00 8b 83 16 2b c0 6a e9 3f fa 7e 6a bc 74 93 78 3f 0d 00 00 00 73 00 69 00 8b 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65d809383c for type 'struct value_type', which requires 8 byte alignment 0x7f65d809383c: note: pointer points here 65 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 65 7f 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e809383c for type 'struct value_type', which requires 8 byte alignment 0x7f65e809383c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7f65f400668c for type 'struct value_type', which requires 8 byte alignment 0x7f65f400668c: note: pointer points here 66 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 66 7f 00 00 b7 96 44 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x7f65fc004c9c for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004c9c: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e809383c for type 'struct value_type', which requires 8 byte alignment 0x7f65e809383c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f65e0081f1c for type 'const struct value_type', which requires 8 byte alignment 0x7f65e0081f1c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 00 00 f0 3f 00 00 fa bf ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f65fc004c9c for type 'const struct value_type', which requires 8 byte alignment 0x7f65fc004c9c: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7f65d809383c for type 'struct value_type', which requires 8 byte alignment 0x7f65d809383c: note: pointer points here 65 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 65 7f 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7f65fc004c9c for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004c9c: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7f65e809383c for type 'const struct value_type', which requires 8 byte alignment 0x7f65e809383c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65fc004c84 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004c84: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 73 00 69 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x7f65f400668c for type 'const struct value_type', which requires 8 byte alignment 0x7f65f400668c: note: pointer points here 66 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f 0c 00 00 00 66 7f 00 00 b7 96 44 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff fc 7f 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7f65f400668c for type 'struct value_type', which requires 8 byte alignment 0x7f65f400668c: note: pointer points here 66 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 66 7f 00 00 b7 96 44 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7f65ec005b94 for type 'struct value_type', which requires 8 byte alignment 0x7f65ec005b94: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 99 99 99 99 99 99 d9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f400668c for type 'struct value_type', which requires 8 byte alignment 0x7f65f400668c: note: pointer points here 66 7f 00 00 67 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 66 7f 00 00 b7 96 44 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7f65fc004c9c for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004c9c: note: pointer points here 73 00 69 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 f0 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e809383c for type 'struct value_type', which requires 8 byte alignment 0x7f65e809383c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e0081f1c for type 'struct value_type', which requires 8 byte alignment 0x7f65e0081f1c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 33 33 33 33 33 33 e3 3f 0c 00 00 00 00 00 f0 3f 00 00 fa bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7f65d8093824 for type 'struct value_type', which requires 8 byte alignment 0x7f65d8093824: note: pointer points here 00 00 00 00 65 3b 3d c5 7a ef cb 3f 00 00 00 00 00 00 00 00 f4 ff ff ff 65 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65e8093824 for type 'struct value_type', which requires 8 byte alignment 0x7f65e8093824: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 e3 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7f65e0081f04 for type 'struct value_type', which requires 8 byte alignment 0x7f65e0081f04: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 33 33 33 33 33 33 e3 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f40067ec for type 'struct value_type', which requires 8 byte alignment 0x7f65f40067ec: note: pointer points here 00 00 00 00 6c 3b 3d c5 7a ef cb 3f 46 17 5d 74 d1 45 b7 3f f3 ff ff ff 66 7f 00 00 67 3b 3d c5 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff fc 7f 00 00 8a 83 16 2b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7f65ec005bac for type 'struct value_type', which requires 8 byte alignment 0x7f65ec005bac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 99 99 99 99 99 99 d9 3f f4 ff ff ff 00 00 f0 3f cc cc cc bf ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f65e809396c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65e809396c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 f1 14 62 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f65fc004e14 for type 'struct value_type', which requires 8 byte alignment 0x7f65fc004e14: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 46 17 5d 74 d1 45 b7 3f f3 ff ff ff 73 00 69 00 8a 83 16 2b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f65f00048fc for type 'struct value_type', which requires 8 byte alignment 0x7f65f00048fc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 99 99 99 99 99 99 d9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x55c12ab858d4 for type 'struct value_type', which requires 8 byte alignment 0x55c12ab858d4: note: pointer points here 00 00 00 00 8a 83 16 2b c0 6a e9 3f 00 00 00 00 00 00 00 00 f4 ff ff ff fc 7f 00 00 8a 83 16 2b ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f65e0081eec for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f65e0081eec: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "DX" for ibody=34 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.3130e-08) d(Edge)/d(DX) check complete with 0 total errors (errmax= 3.3344e-14) d(Node)/d(DX) check complete with 0 total errors (errmax= 3.9848e-08) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "DY" for ibody=34 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.3324e-08) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.2654e-13) d(Node)/d(DY) check complete with 0 total errors (errmax= 1.2496e-07) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "DZ" for ibody=34 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.6173e-10) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.2456e-18) d(Node)/d(DZ) check complete with 0 total errors (errmax= 1.9230e-10) ********************************************************* Starting geometric sensitivity wrt "move" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "move" for ibody=34 d(Face)/d(move) check complete with 0 total errors (errmax= 1.8266e-10) d(Edge)/d(move) check complete with 0 total errors (errmax= 9.8608e-19) d(Node)/d(move) check complete with 0 total errors (errmax= 1.2820e-10) ********************************************************* Starting geometric sensitivity wrt "bump" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "bump" for ibody=34 d(Face)/d(bump) check complete with 0 total errors (errmax= 9.6394e-08) d(Edge)/d(bump) check complete with 0 total errors (errmax= 9.7507e-13) d(Node)/d(bump) check complete with 0 total errors (errmax= 4.9887e-07) ********************************************************* Starting geometric sensitivity wrt "rotn" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "rotn" for ibody=34 d(Face)/d(rotn) check complete with 0 total errors (errmax= 2.6240e-10) d(Edge)/d(rotn) check complete with 0 total errors (errmax= 3.8992e-18) d(Node)/d(rotn) check complete with 0 total errors (errmax= 5.3397e-10) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=34 Computing finite difference sensitivities for ibody=34 Comparing geometric sensitivities wrt "rad" for ibody=34 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.4918e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.6526e-12) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8065e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.562 sec Sensitivity checks complete with 0 total errors (max geom err= 4.9887e-07) with 0 suppressions real 0m22.845s user 0m28.316s sys 0m0.713s ++ set +x -------------------------------------------------------------------------------------------------- ( 50 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xsize" for ibody=1 d(Face)/d(xsize) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(xsize) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ysize" for ibody=1 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zsize" for ibody=1 d(Face)/d(zsize) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zsize) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m0.685s user 0m0.388s sys 0m0.287s ++ set +x -------------------------------------------------------------------------------------------------- ( 51 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.1227e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.1721e-14) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 1.5085e-16) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.1882e-14) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 1.8124e-08) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xend" for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "yend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yend" for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.1215e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.1723e-14) d(Node)/d(yend) check complete with 0 total errors (errmax= 1.3298e-16) ********************************************************* Starting geometric sensitivity wrt "zend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zend" for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.0742e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 6.1154e-14) d(Node)/d(zend) check complete with 0 total errors (errmax= 1.8012e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.7781e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(rad) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.022 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8124e-08) with 0 suppressions real 0m0.804s user 0m0.542s sys 0m0.322s ++ set +x -------------------------------------------------------------------------------------------------- ( 52 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.1215e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.1727e-14) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 2.5640e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.0742e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.1154e-14) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 1.8012e-08) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xend" for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(xend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "yend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yend" for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.1227e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.1723e-14) d(Node)/d(yend) check complete with 0 total errors (errmax= 2.5640e-10) ********************************************************* Starting geometric sensitivity wrt "zend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zend" for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 6.1882e-14) d(Node)/d(zend) check complete with 0 total errors (errmax= 1.8124e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.7781e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(rad) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.020 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8124e-08) with 0 suppressions real 0m0.796s user 0m0.565s sys 0m0.320s ++ set +x -------------------------------------------------------------------------------------------------- ( 53 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC2a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.1229e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.1755e-14) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.1431e-14) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 1.8028e-08) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xend" for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.1227e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 1.1756e-14) d(Node)/d(xend) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yend" for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(yend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(yend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zend" for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 6.1314e-14) d(Node)/d(zend) check complete with 0 total errors (errmax= 1.8032e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.6562e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.018 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8032e-08) with 0 suppressions real 0m0.756s user 0m0.555s sys 0m0.297s ++ set +x -------------------------------------------------------------------------------------------------- ( 54 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC2b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.1227e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.1761e-14) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 2.6076e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.1314e-14) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 1.8032e-08) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xend" for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.1229e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 1.1756e-14) d(Node)/d(xend) check complete with 0 total errors (errmax= 2.5640e-10) ********************************************************* Starting geometric sensitivity wrt "yend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yend" for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(yend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(yend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "zend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zend" for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 6.1431e-14) d(Node)/d(zend) check complete with 0 total errors (errmax= 1.8029e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.6562e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8032e-08) with 0 suppressions real 0m0.625s user 0m0.467s sys 0m0.249s ++ set +x -------------------------------------------------------------------------------------------------- ( 55 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC3a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.1431e-14) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 1.8028e-08) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.1229e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.1755e-14) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xend" for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 6.1314e-14) d(Node)/d(xend) check complete with 0 total errors (errmax= 1.8032e-08) ********************************************************* Starting geometric sensitivity wrt "yend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yend" for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.1227e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.1756e-14) d(Node)/d(yend) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zend" for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(zend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.6562e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8032e-08) with 0 suppressions real 0m0.609s user 0m0.431s sys 0m0.278s ++ set +x -------------------------------------------------------------------------------------------------- ( 56 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC3b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbeg" for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.1314e-14) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 1.8032e-08) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybeg" for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.1227e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.1761e-14) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 2.6076e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbeg" for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xend" for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.0739e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 6.1431e-14) d(Node)/d(xend) check complete with 0 total errors (errmax= 1.8029e-08) ********************************************************* Starting geometric sensitivity wrt "yend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yend" for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.1229e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.1756e-14) d(Node)/d(yend) check complete with 0 total errors (errmax= 2.5640e-10) ********************************************************* Starting geometric sensitivity wrt "zend" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zend" for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(zend) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(zend) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.6562e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.024 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8032e-08) with 0 suppressions real 0m1.093s user 0m0.608s sys 0m0.300s ++ set +x -------------------------------------------------------------------------------------------------- ( 57 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC4a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xvrtx" for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 2.6455e-17) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yvrtx" for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 5.7380e-09) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.1700e-14) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 1.5085e-16) ********************************************************* Starting geometric sensitivity wrt "zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zvrtx" for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 5.4903e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.8978e-14) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 1.7951e-08) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbase" for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.8051e-17) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.3682e-10) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybase" for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.7329e-09) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.1723e-14) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.3298e-16) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbase" for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 5.4901e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8976e-14) d(Node)/d(zbase) check complete with 0 total errors (errmax= 1.7968e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.7132e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.1523e-18) d(Node)/d(rad) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.025 sec Sensitivity checks complete with 0 total errors (max geom err= 1.7968e-08) with 0 suppressions real 0m1.005s user 0m0.484s sys 0m0.286s ++ set +x -------------------------------------------------------------------------------------------------- ( 58 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC4b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xvrtx" for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 2.5143e-17) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 5.1678e-10) ********************************************************* Starting geometric sensitivity wrt "yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yvrtx" for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 5.7366e-09) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.1699e-14) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 1.2820e-16) ********************************************************* Starting geometric sensitivity wrt "zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zvrtx" for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 5.4874e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.9173e-14) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 1.8012e-08) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbase" for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.9445e-17) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.5071e-10) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybase" for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.7326e-09) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.1721e-14) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.2226e-16) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbase" for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 5.4881e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.9264e-14) d(Node)/d(zbase) check complete with 0 total errors (errmax= 1.8124e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.0159e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 7.3834e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.023 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8124e-08) with 0 suppressions real 0m0.670s user 0m0.407s sys 0m0.293s ++ set +x -------------------------------------------------------------------------------------------------- ( 59 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC5a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xvrtx" for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 5.7431e-09) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.1706e-14) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yvrtx" for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 2.6471e-17) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 5.2857e-10) ********************************************************* Starting geometric sensitivity wrt "zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zvrtx" for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 5.4920e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.9120e-14) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 1.8015e-08) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbase" for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.7519e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.1756e-14) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybase" for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.8066e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 4.3682e-10) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbase" for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 5.4904e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8957e-14) d(Node)/d(zbase) check complete with 0 total errors (errmax= 1.8032e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.3971e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 5.7437e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.021 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8032e-08) with 0 suppressions real 0m0.675s user 0m0.383s sys 0m0.329s ++ set +x -------------------------------------------------------------------------------------------------- ( 60 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC5b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xvrtx" for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 5.7415e-09) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.1704e-14) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yvrtx" for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 2.5158e-17) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 5.1678e-10) ********************************************************* Starting geometric sensitivity wrt "zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zvrtx" for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 5.4876e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.9032e-14) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 1.8012e-08) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbase" for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.7516e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.1755e-14) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybase" for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9380e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 4.5071e-10) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbase" for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 5.4878e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.9137e-14) d(Node)/d(zbase) check complete with 0 total errors (errmax= 1.8028e-08) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.6912e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.8539e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.028 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8028e-08) with 0 suppressions real 0m0.956s user 0m0.498s sys 0m0.389s ++ set +x -------------------------------------------------------------------------------------------------- ( 61 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC6a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xvrtx" for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 5.4920e-09) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.9120e-14) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 1.8015e-08) ********************************************************* Starting geometric sensitivity wrt "yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yvrtx" for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 5.7431e-09) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.1706e-14) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zvrtx" for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 2.6471e-17) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 5.2857e-10) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbase" for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.4904e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.8957e-14) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.8032e-08) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybase" for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.7519e-09) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.1756e-14) d(Node)/d(ybase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbase" for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8066e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.3682e-10) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 7.3971e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 5.7437e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.026 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8032e-08) with 0 suppressions real 0m0.794s user 0m0.487s sys 0m0.318s ++ set +x -------------------------------------------------------------------------------------------------- ( 62 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC6b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xvrtx" for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 5.4876e-09) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.9032e-14) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 1.8012e-08) ********************************************************* Starting geometric sensitivity wrt "yvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "yvrtx" for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 5.7415e-09) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.1704e-14) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zvrtx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zvrtx" for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 2.5158e-17) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 5.1678e-10) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xbase" for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.4878e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.9137e-14) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.8028e-08) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ybase" for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.7516e-09) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.1755e-14) d(Node)/d(ybase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "zbase" for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.9380e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.5071e-10) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "rad" for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 6.6912e-11) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.8539e-19) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.032 sec Sensitivity checks complete with 0 total errors (max geom err= 1.8028e-08) with 0 suppressions real 0m0.840s user 0m0.534s sys 0m0.316s ++ set +x -------------------------------------------------------------------------------------------------- ( 63 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD0a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "thickness" for ibody=4 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.5753e-23) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "camber" for ibody=4 d(Face)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "croot" for ibody=4 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.8999e-10) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6245e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9585e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "aspect" for ibody=4 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.1004e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.012 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1604e-10) with 0 suppressions real 0m0.643s user 0m0.379s sys 0m0.311s ++ set +x -------------------------------------------------------------------------------------------------- ( 64 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD0b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "thickness" for ibody=3 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.9209e-09) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.6706e-16) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "camber" for ibody=3 d(Face)/d(camber) check complete with 0 total errors (errmax= 7.5136e-09) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.5645e-15) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "croot" for ibody=3 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.8999e-10) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.4395e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aspect" for ibody=3 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.1004e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max geom err= 7.5136e-09) with 0 suppressions real 0m0.606s user 0m0.324s sys 0m0.287s ++ set +x -------------------------------------------------------------------------------------------------- ( 65 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD0c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "thickness" for ibody=3 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.5727e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.9590e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.0854e-14) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "camber" for ibody=3 d(Face)/d(camber) check complete with 0 total errors (errmax= 7.2778e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 5.0609e-09) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0419e-09) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "croot" for ibody=3 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.8999e-10) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.0029e-17) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "aspect" for ibody=3 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 7.1344e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.130 sec Sensitivity checks complete with 0 total errors (max geom err= 1.5727e-05) with 0 suppressions real 0m2.344s user 0m2.894s sys 0m0.337s ++ set +x -------------------------------------------------------------------------------------------------- ( 66 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "thickness" for ibody=11 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.4217e-12) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 5.6620e-22) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "camber" for ibody=11 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.3417e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "croot" for ibody=11 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.8999e-10) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6245e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9585e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "aspect" for ibody=11 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.1004e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "taper" for ibody=11 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.1725e-18) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6826e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "twist" for ibody=11 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.6763e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4199e-18) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4384e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "lesweep" for ibody=11 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.0732e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.7609e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dihedral" for ibody=11 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.4415e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 1.1483e-21) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.7425e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.696 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1604e-10) with 0 suppressions real 0m2.019s user 0m1.908s sys 0m0.263s ++ set +x -------------------------------------------------------------------------------------------------- ( 67 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "thickness" for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 4.0762e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.4768e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "camber" for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 8.1524e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.9908e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "croot" for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.8837e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.0733e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "aspect" for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.5041e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "taper" for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.9682e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.0733e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "twist" for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.8454e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.1461e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "lesweep" for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 6.0520e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.7609e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "dihedral" for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.4336e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 4.0373e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.0123e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.942 sec Sensitivity checks complete with 0 total errors (max geom err= 8.1524e-05) with 0 suppressions real 0m3.131s user 0m2.714s sys 0m0.279s ++ set +x -------------------------------------------------------------------------------------------------- ( 68 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD1c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "thickness" for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.4273e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.8108e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.0854e-14) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "camber" for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.9461e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 3.8574e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0419e-09) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "croot" for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.1501e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "aspect" for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.0651e-17) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "taper" for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 7.2172e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "twist" for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.2984e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.0821e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "lesweep" for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.1514e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.7609e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "dihedral" for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.5807e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.8536e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.0992e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 4.634 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4273e-05) with 0 suppressions real 0m12.801s user 0m13.343s sys 0m0.271s ++ set +x -------------------------------------------------------------------------------------------------- ( 69 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD2a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "thickness" for ibody=11 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.3544e-12) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 5.6620e-22) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "camber" for ibody=11 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.2085e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "croot" for ibody=11 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.8999e-10) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6245e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9585e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "aspect" for ibody=11 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.1004e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "taper" for ibody=11 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.1725e-18) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6826e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "twist" for ibody=11 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.6763e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4199e-18) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4384e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "lesweep" for ibody=11 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.0732e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.7609e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "dihedral" for ibody=11 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.4220e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 1.1483e-21) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.7425e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.620 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1604e-10) with 0 suppressions real 0m1.894s user 0m1.780s sys 0m0.251s ++ set +x -------------------------------------------------------------------------------------------------- ( 70 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD2b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "thickness" for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 4.0762e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.4768e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "camber" for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 8.1524e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.9908e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "croot" for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.8837e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.0733e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "aspect" for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.5041e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "taper" for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.9682e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.0733e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "twist" for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.8451e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.1461e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "lesweep" for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 6.1103e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.7609e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "dihedral" for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.4313e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 4.0373e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.0123e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.047 sec Sensitivity checks complete with 0 total errors (max geom err= 8.1524e-05) with 0 suppressions real 0m3.072s user 0m2.903s sys 0m0.276s ++ set +x -------------------------------------------------------------------------------------------------- ( 71 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD2c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "thickness" for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.3847e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.8108e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.0854e-14) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "camber" for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.8919e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 3.8574e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0419e-09) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "croot" for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.1303e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "aspect" for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.0651e-17) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "taper" for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 6.8645e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "twist" for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.1507e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.0821e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "lesweep" for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.3297e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.7609e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "dihedral" for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.5174e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.8536e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.0992e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 4.970 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3847e-05) with 0 suppressions real 0m13.833s user 0m14.235s sys 0m0.311s ++ set +x -------------------------------------------------------------------------------------------------- ( 72 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD3a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "thickness" for ibody=18 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.9894e-12) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4943e-22) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "camber" for ibody=18 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "croot" for ibody=18 d(Face)/d(croot) check complete with 0 total errors (errmax= 3.5433e-12) d(Edge)/d(croot) check complete with 0 total errors (errmax= 7.5809e-19) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9585e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "aspect" for ibody=18 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.8018e-19) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "taper" for ibody=18 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.6923e-12) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4716e-19) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6826e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "twist" for ibody=18 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.0295e-12) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.2882e-19) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4384e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "lesweep" for ibody=18 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.0440e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "dihedral" for ibody=18 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.4346e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.6872e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.7425e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.915 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1604e-10) with 0 suppressions real 0m3.162s user 0m2.995s sys 0m0.358s ++ set +x -------------------------------------------------------------------------------------------------- ( 73 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD3b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "thickness" for ibody=15 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.3410e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.1508e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "camber" for ibody=15 d(Face)/d(camber) check complete with 0 total errors (errmax= 4.6827e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 4.6049e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "croot" for ibody=15 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.8221e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "aspect" for ibody=15 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.9644e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.4878e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "taper" for ibody=15 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.7103e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "twist" for ibody=15 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.7653e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.7767e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "lesweep" for ibody=15 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.5209e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.0440e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "dihedral" for ibody=15 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.7218e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.0863e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.0123e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.409 sec Sensitivity checks complete with 0 total errors (max geom err= 4.6827e-05) with 0 suppressions real 0m4.612s user 0m4.425s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 74 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD3c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "thickness" for ibody=15 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.0914e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.8107e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.0854e-14) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "camber" for ibody=15 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.2445e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 3.6533e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0419e-09) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "croot" for ibody=15 d(Face)/d(croot) check complete with 0 total errors (errmax= 8.5151e-07) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "aspect" for ibody=15 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.3606e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.1373e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "taper" for ibody=15 d(Face)/d(taper) check complete with 0 total errors (errmax= 7.6751e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "twist" for ibody=15 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.9976e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.0820e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "lesweep" for ibody=15 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.7066e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.0440e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "dihedral" for ibody=15 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.4634e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.0817e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.0992e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 6.931 sec Sensitivity checks complete with 0 total errors (max geom err= 1.0914e-05) with 0 suppressions real 0m18.932s user 0m18.274s sys 0m0.284s ++ set +x -------------------------------------------------------------------------------------------------- ( 75 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD4a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "thickness" for ibody=32 d(Face)/d(thickness) check complete with 0 total errors (errmax= 4.0415e-12) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4943e-22) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "camber" for ibody=32 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.1729e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "croot" for ibody=32 d(Face)/d(croot) check complete with 0 total errors (errmax= 3.8402e-12) d(Edge)/d(croot) check complete with 0 total errors (errmax= 7.5809e-19) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9585e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "aspect" for ibody=32 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.1729e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.8018e-19) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "taper" for ibody=32 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7423e-12) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4716e-19) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6826e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "twist" for ibody=32 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.6814e-12) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.2452e-19) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4384e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "lesweep" for ibody=32 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.1729e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.7091e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 4.8511e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=32 Computing finite difference sensitivities for ibody=32 Comparing geometric sensitivities wrt "dihedral" for ibody=32 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.5949e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.2483e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.7425e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.187 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1604e-10) with 0 suppressions real 0m3.732s user 0m3.593s sys 0m0.299s ++ set +x -------------------------------------------------------------------------------------------------- ( 76 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD4b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "thickness" for ibody=27 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.3410e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.1508e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "camber" for ibody=27 d(Face)/d(camber) check complete with 0 total errors (errmax= 4.6827e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 4.6049e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "croot" for ibody=27 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.8221e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "aspect" for ibody=27 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.3654e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.4878e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "taper" for ibody=27 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.1691e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "twist" for ibody=27 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.2467e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.7766e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "lesweep" for ibody=27 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.0037e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.7091e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 4.8511e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "dihedral" for ibody=27 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.0247e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.0863e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.0123e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.169 sec Sensitivity checks complete with 0 total errors (max geom err= 4.6827e-05) with 0 suppressions real 0m7.325s user 0m7.128s sys 0m0.276s ++ set +x -------------------------------------------------------------------------------------------------- ( 77 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD4c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "thickness" for ibody=27 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.4777e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.8107e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.0854e-14) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "camber" for ibody=27 d(Face)/d(camber) check complete with 0 total errors (errmax= 3.0643e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 3.6533e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0419e-09) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "croot" for ibody=27 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.2062e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "aspect" for ibody=27 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.1535e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 4.5765e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "taper" for ibody=27 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.0316e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "twist" for ibody=27 d(Face)/d(twist) check complete with 0 total errors (errmax= 9.2564e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.0821e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "lesweep" for ibody=27 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.4770e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.7091e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 4.8511e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "dihedral" for ibody=27 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.1251e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.3640e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 6.1547e-14) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 14.056 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4777e-05) with 0 suppressions real 0m35.881s user 0m35.389s sys 0m0.244s ++ set +x -------------------------------------------------------------------------------------------------- ( 78 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD5a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "thickness" for ibody=20 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.9894e-12) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4943e-22) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "camber" for ibody=20 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "croot" for ibody=20 d(Face)/d(croot) check complete with 0 total errors (errmax= 3.5433e-12) d(Edge)/d(croot) check complete with 0 total errors (errmax= 7.5809e-19) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9585e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "aspect" for ibody=20 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.8018e-19) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "taper" for ibody=20 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.6923e-12) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4716e-19) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6826e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "twist" for ibody=20 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.0295e-12) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.2882e-19) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4384e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "lesweep" for ibody=20 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.0440e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "dihedral" for ibody=20 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.4346e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.6872e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.7425e-13) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "rottip" for ibody=20 d(Face)/d(rottip) check complete with 0 total errors (errmax= 1.1213e-12) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 4.4999e-19) d(Node)/d(rottip) check complete with 0 total errors (errmax= 7.5473e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.819 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1604e-10) with 0 suppressions real 0m2.691s user 0m2.454s sys 0m0.313s ++ set +x -------------------------------------------------------------------------------------------------- ( 79 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD5b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "thickness" for ibody=17 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.3410e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.1508e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "camber" for ibody=17 d(Face)/d(camber) check complete with 0 total errors (errmax= 4.6827e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 4.6049e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "croot" for ibody=17 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.8221e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "aspect" for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.9644e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.4878e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "taper" for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.7103e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "twist" for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.7653e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.7767e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "lesweep" for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.5209e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.0440e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dihedral" for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.7218e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.0863e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 8.0123e-18) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "rottip" for ibody=17 d(Face)/d(rottip) check complete with 0 total errors (errmax= 6.2310e-12) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 2.8269e-15) d(Node)/d(rottip) check complete with 0 total errors (errmax= 7.5473e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.195 sec Sensitivity checks complete with 0 total errors (max geom err= 4.6827e-05) with 0 suppressions real 0m7.423s user 0m6.958s sys 0m0.318s ++ set +x -------------------------------------------------------------------------------------------------- ( 80 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD5c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "thickness" for ibody=17 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.0914e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.8107e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.0854e-14) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "camber" for ibody=17 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.2445e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 3.6533e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 4.0419e-09) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "croot" for ibody=17 d(Face)/d(croot) check complete with 0 total errors (errmax= 8.5151e-07) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 1.9583e-10) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "aspect" for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.3606e-12) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.1373e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 2.1604e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "taper" for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 7.6751e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2943e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6825e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "twist" for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.9976e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.0820e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4099e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "lesweep" for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.7066e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.0440e-19) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 3.1175e-11) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dihedral" for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.4634e-12) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.0817e-22) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.0992e-15) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "rottip" for ibody=17 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.4819e-12) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 4.3618e-14) d(Node)/d(rottip) check complete with 0 total errors (errmax= 7.5473e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 6.670 sec Sensitivity checks complete with 0 total errors (max geom err= 1.0914e-05) with 0 suppressions real 0m17.511s user 0m18.399s sys 0m0.300s ++ set +x -------------------------------------------------------------------------------------------------- ( 81 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6a0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "thickness" for ibody=27 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.2888e-11) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 4.4638e-20) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.6408e-12) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "camber" for ibody=27 d(Face)/d(camber) check complete with 0 total errors (errmax= 5.2671e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "croot" for ibody=27 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.4629e-11) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2939e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.8575e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "aspect" for ibody=27 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.1142e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.0197e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "taper" for ibody=27 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.3197e-11) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.4752e-19) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2681e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "twist" for ibody=27 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.3093e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.1060e-19) d(Node)/d(twist) check complete with 0 total errors (errmax= 9.1603e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "lesweep" for ibody=27 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.2671e-12) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.4306e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "dihedral" for ibody=27 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.8044e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 4.2029e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "rottip" for ibody=27 d(Face)/d(rottip) check complete with 0 total errors (errmax= 1.5573e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 1.3443e-18) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "xbase" for ibody=27 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.2671e-12) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 7.7591e-19) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "ybase" for ibody=27 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.0392e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.8819e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "zbase" for ibody=27 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.8148e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0718e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.709 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0941e-10) with 0 suppressions real 0m12.319s user 0m11.512s sys 0m0.319s ++ set +x -------------------------------------------------------------------------------------------------- ( 82 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6a1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "thickness" for ibody=24 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.1133e-11) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 6.8503e-20) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.6408e-12) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "camber" for ibody=24 d(Face)/d(camber) check complete with 0 total errors (errmax= 6.7334e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "croot" for ibody=24 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.0957e-10) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.8090e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.8575e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "aspect" for ibody=24 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8595e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.7183e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "taper" for ibody=24 d(Face)/d(taper) check complete with 0 total errors (errmax= 7.9322e-11) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.7593e-18) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2681e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "twist" for ibody=24 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.6660e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.6283e-18) d(Node)/d(twist) check complete with 0 total errors (errmax= 9.1603e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "lesweep" for ibody=24 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.2002e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.6918e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "dihedral" for ibody=24 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.7737e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.5753e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "rottip" for ibody=24 d(Face)/d(rottip) check complete with 0 total errors (errmax= 2.0964e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 1.2417e-18) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "xbase" for ibody=24 d(Face)/d(xbase) check complete with 0 total errors (errmax= 9.0813e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.3601e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "ybase" for ibody=24 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.0921e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.6565e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "zbase" for ibody=24 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.2628e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0718e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.957 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0941e-10) with 0 suppressions real 0m6.388s user 0m6.309s sys 0m0.296s ++ set +x -------------------------------------------------------------------------------------------------- ( 83 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6a2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "thickness" for ibody=21 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.2947e-11) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.2055e-19) d(Node)/d(thickness) check complete with 0 total errors (errmax= 6.6408e-12) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "camber" for ibody=21 d(Face)/d(camber) check complete with 0 total errors (errmax= 8.0342e-12) d(Edge)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "croot" for ibody=21 d(Face)/d(croot) check complete with 0 total errors (errmax= 9.8718e-11) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6106e-18) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.8575e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "aspect" for ibody=21 d(Face)/d(aspect) check complete with 0 total errors (errmax= 9.6279e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.2923e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "taper" for ibody=21 d(Face)/d(taper) check complete with 0 total errors (errmax= 8.5465e-11) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4785e-18) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2681e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "twist" for ibody=21 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.7300e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.3619e-18) d(Node)/d(twist) check complete with 0 total errors (errmax= 9.1603e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "lesweep" for ibody=21 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 9.8943e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 2.6519e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "dihedral" for ibody=21 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.5556e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.9745e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "rottip" for ibody=21 d(Face)/d(rottip) check complete with 0 total errors (errmax= 2.5165e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 1.2417e-18) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "xbase" for ibody=21 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.0742e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.4104e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "ybase" for ibody=21 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.9399e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 6.0358e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "zbase" for ibody=21 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.2212e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0718e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.731 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0941e-10) with 0 suppressions real 0m4.947s user 0m4.906s sys 0m0.304s ++ set +x -------------------------------------------------------------------------------------------------- ( 84 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6b0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "thickness" for ibody=22 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.0621e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.1508e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "camber" for ibody=22 d(Face)/d(camber) check complete with 0 total errors (errmax= 4.1240e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 4.6049e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "croot" for ibody=22 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.4860e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.6725e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.5007e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "aspect" for ibody=22 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.1684e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.6030e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "taper" for ibody=22 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.8639e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6726e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2380e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "twist" for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.5572e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1708e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5403e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "lesweep" for ibody=22 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.0284e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.4204e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "dihedral" for ibody=22 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.9710e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.3989e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "rottip" for ibody=22 d(Face)/d(rottip) check complete with 0 total errors (errmax= 5.7440e-10) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 1.8317e-15) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "xbase" for ibody=22 d(Face)/d(xbase) check complete with 0 total errors (errmax= 9.5437e-12) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 6.8463e-19) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "ybase" for ibody=22 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.0034e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9485e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "zbase" for ibody=22 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.7715e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.5256e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.353 sec Sensitivity checks complete with 0 total errors (max geom err= 4.1240e-05) with 0 suppressions real 0m13.757s user 0m13.075s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 85 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6b1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "thickness" for ibody=20 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.2163e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.3654e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "camber" for ibody=20 d(Face)/d(camber) check complete with 0 total errors (errmax= 4.4324e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.9471e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "croot" for ibody=20 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.6719e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.0705e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.5007e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "aspect" for ibody=20 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.7276e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.5677e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "taper" for ibody=20 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.6871e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6726e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2380e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "twist" for ibody=20 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.4110e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1707e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5403e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "lesweep" for ibody=20 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.2560e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.6518e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "dihedral" for ibody=20 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.6674e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.0807e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "rottip" for ibody=20 d(Face)/d(rottip) check complete with 0 total errors (errmax= 6.5521e-10) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 1.8313e-15) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "xbase" for ibody=20 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.1777e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.2623e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "ybase" for ibody=20 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.6725e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 3.0704e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "zbase" for ibody=20 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.8548e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 9.9869e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.797 sec Sensitivity checks complete with 0 total errors (max geom err= 4.4324e-05) with 0 suppressions real 0m5.023s user 0m4.599s sys 0m0.291s ++ set +x -------------------------------------------------------------------------------------------------- ( 86 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6b2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "thickness" for ibody=18 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.1087e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.3654e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "camber" for ibody=18 d(Face)/d(camber) check complete with 0 total errors (errmax= 4.2172e-05) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.9471e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "croot" for ibody=18 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.5422e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.0705e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.5007e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "aspect" for ibody=18 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.5503e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.1850e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "taper" for ibody=18 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.6875e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6726e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2380e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "twist" for ibody=18 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.4090e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1707e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5403e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "lesweep" for ibody=18 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.0383e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 2.3107e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "dihedral" for ibody=18 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.9879e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2750e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "rottip" for ibody=18 d(Face)/d(rottip) check complete with 0 total errors (errmax= 7.3474e-10) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 1.8313e-15) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "xbase" for ibody=18 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.1075e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.3971e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "ybase" for ibody=18 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.8911e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.4405e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "zbase" for ibody=18 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.2998e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 9.9869e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.495 sec Sensitivity checks complete with 0 total errors (max geom err= 4.2172e-05) with 0 suppressions real 0m4.759s user 0m4.457s sys 0m0.340s ++ set +x -------------------------------------------------------------------------------------------------- ( 87 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6c0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "thickness" for ibody=22 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.4521e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.8090e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 1.2820e-16) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "camber" for ibody=22 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.7916e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 3.6550e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 6.4099e-17) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "croot" for ibody=22 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.0775e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.2936e-10) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.5007e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "aspect" for ibody=22 d(Face)/d(aspect) check complete with 0 total errors (errmax= 6.1672e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.8192e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "taper" for ibody=22 d(Face)/d(taper) check complete with 0 total errors (errmax= 8.6137e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2936e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2380e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "twist" for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.2174e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.6015e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5403e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "lesweep" for ibody=22 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.8253e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.4204e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "dihedral" for ibody=22 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.8539e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 1.1143e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "rottip" for ibody=22 d(Face)/d(rottip) check complete with 0 total errors (errmax= 2.1047e-09) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 2.7844e-14) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "xbase" for ibody=22 d(Face)/d(xbase) check complete with 0 total errors (errmax= 3.1696e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 6.8463e-19) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "ybase" for ibody=22 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.7787e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.7160e-20) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=22 Computing finite difference sensitivities for ibody=22 Comparing geometric sensitivities wrt "zbase" for ibody=22 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.2412e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.5280e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 5.044 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4521e-05) with 0 suppressions real 0m26.975s user 0m27.997s sys 0m0.320s ++ set +x -------------------------------------------------------------------------------------------------- ( 88 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6c1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "thickness" for ibody=20 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.2637e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 4.9978e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 1.2820e-16) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "camber" for ibody=20 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.3734e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.3391e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 5.1279e-17) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "croot" for ibody=20 d(Face)/d(croot) check complete with 0 total errors (errmax= 9.3302e-07) d(Edge)/d(croot) check complete with 0 total errors (errmax= 8.2791e-11) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.5007e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "aspect" for ibody=20 d(Face)/d(aspect) check complete with 0 total errors (errmax= 7.2891e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.0283e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "taper" for ibody=20 d(Face)/d(taper) check complete with 0 total errors (errmax= 9.6530e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2936e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2380e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "twist" for ibody=20 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.8741e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.6115e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5403e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "lesweep" for ibody=20 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 6.6057e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 4.6518e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "dihedral" for ibody=20 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.6918e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.2716e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "rottip" for ibody=20 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.5375e-09) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 2.7759e-14) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "xbase" for ibody=20 d(Face)/d(xbase) check complete with 0 total errors (errmax= 4.5500e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.2623e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "ybase" for ibody=20 d(Face)/d(ybase) check complete with 0 total errors (errmax= 4.1983e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.1568e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "zbase" for ibody=20 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.9884e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 3.1707e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 9.648 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2637e-05) with 0 suppressions real 0m23.480s user 0m24.024s sys 0m0.304s ++ set +x -------------------------------------------------------------------------------------------------- ( 89 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6c2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thickness" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "thickness" for ibody=18 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.4285e-05) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 4.9978e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 1.2820e-16) ********************************************************* Starting geometric sensitivity wrt "camber" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "camber" for ibody=18 d(Face)/d(camber) check complete with 0 total errors (errmax= 2.7899e-06) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.3392e-10) d(Node)/d(camber) check complete with 0 total errors (errmax= 5.1279e-17) ********************************************************* Starting geometric sensitivity wrt "croot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "croot" for ibody=18 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.1291e-06) d(Edge)/d(croot) check complete with 0 total errors (errmax= 8.2791e-11) d(Node)/d(croot) check complete with 0 total errors (errmax= 9.5007e-11) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "aspect" for ibody=18 d(Face)/d(aspect) check complete with 0 total errors (errmax= 6.6683e-11) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.6180e-18) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.0941e-10) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "taper" for ibody=18 d(Face)/d(taper) check complete with 0 total errors (errmax= 8.8444e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.2936e-10) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.2380e-10) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "twist" for ibody=18 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.3654e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.6116e-15) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5403e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "lesweep" for ibody=18 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.1573e-11) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 2.3711e-18) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4353e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "dihedral" for ibody=18 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.1571e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.3559e-19) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.5553e-11) ********************************************************* Starting geometric sensitivity wrt "rottip" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "rottip" for ibody=18 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.0440e-09) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 2.7762e-14) d(Node)/d(rottip) check complete with 0 total errors (errmax= 8.3154e-11) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "xbase" for ibody=18 d(Face)/d(xbase) check complete with 0 total errors (errmax= 3.8865e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.3971e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "ybase" for ibody=18 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.9089e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.3526e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "zbase" for ibody=18 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.3151e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.2066e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 4.737 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4285e-05) with 0 suppressions real 0m16.351s user 0m16.559s sys 0m0.308s ++ set +x -------------------------------------------------------------------------------------------------- ( 90 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dxbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dxbar" for ibody=8 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 1.9538e-20) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "dybar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dybar" for ibody=8 d(Face)/d(dybar) check complete with 0 total errors (errmax= 1.5447e-11) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 2.2192e-20) d(Node)/d(dybar) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "dzbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dzbar" for ibody=8 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 1.5447e-11) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 2.2192e-20) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "dxbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dxbox" for ibody=8 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 1.0567e-18) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 5.9349e-10) ********************************************************* Starting geometric sensitivity wrt "dybox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dybox" for ibody=8 d(Face)/d(dybox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dybox) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dzbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dzbox" for ibody=8 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.085 sec Sensitivity checks complete with 0 total errors (max geom err= 5.9349e-10) with 0 suppressions real 0m2.726s user 0m4.007s sys 0m0.400s ++ set +x -------------------------------------------------------------------------------------------------- ( 91 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE2.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7f92fc00616c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92fc00616c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ff ff ff ff ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f92f8005c54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92f8005c54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x55b36e29547c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f93000061c4 for type 'struct type', which requires 8 byte alignment 0x7f93000061c4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f92f0005cfc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92f0005cfc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f9304006384 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f9304006384: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f92ec005c54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92ec005c54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f92f4005d34 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92f4005d34: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f92f8005c54 for type 'struct type', which requires 8 byte alignment 0x7f92f8005c54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f93000061c4 for type 'struct type', which requires 8 byte alignment 0x7f93000061c4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f92fc006154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92fc006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7f9300006284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f9300006284: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x55b36e295414 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55b36e295414: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f92f0005cc4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92f0005cc4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7f9304006384 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f9304006384: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f92f8005c54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92f8005c54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f92ec005c8c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92ec005c8c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92fc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7f92fc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e295464 for type 'struct value_type', which requires 8 byte alignment 0x55b36e295464: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f92f4005d34 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f92f4005d34: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e295464 for type 'struct value_type', which requires 8 byte alignment 0x55b36e295464: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92ec005ca4 for type 'struct value_type', which requires 8 byte alignment 0x7f92ec005ca4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7f9300006214 for type 'struct value_type', which requires 8 byte alignment 0x7f9300006214: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7f92f8005ca4 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005ca4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7f92fc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7f92fc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f93040063d4 for type 'struct value_type', which requires 8 byte alignment 0x7f93040063d4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x7f92ec005e04 for type 'struct value_type', which requires 8 byte alignment 0x7f92ec005e04: note: pointer points here 00 00 00 00 7f 19 60 74 d1 45 c7 3f e8 67 41 92 24 49 c2 3f 0d 00 00 00 00 00 f0 3f 12 6e 47 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7f92f8005e04 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005e04: note: pointer points here 00 00 00 00 7f 19 60 74 d1 45 c7 3f e8 67 41 92 24 49 c2 3f 0d 00 00 00 73 00 69 00 12 6e 47 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7f9304006594 for type 'struct value_type', which requires 8 byte alignment 0x7f9304006594: note: pointer points here 00 00 00 00 b3 e3 5d 74 d1 45 c7 3f b5 15 3f 92 24 49 b2 3f 0d 00 00 00 73 00 69 00 f7 3e 46 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f93000063d4 for type 'struct value_type', which requires 8 byte alignment 0x7f93000063d4: note: pointer points here 00 00 00 00 b3 e3 5d 74 d1 45 c7 3f b5 15 3f 92 24 49 b2 3f 0d 00 00 00 00 00 f0 3f f7 3e 46 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7f92f0005d14 for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f93040063ec for type 'struct value_type', which requires 8 byte alignment 0x7f93040063ec: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 b2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f0005d2c for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7f92f8005ca4 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005ca4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7f93040063ec for type 'struct value_type', which requires 8 byte alignment 0x7f93040063ec: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 b2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7f930000622c for type 'struct value_type', which requires 8 byte alignment 0x7f930000622c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 b2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7f92f8005ca4 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005ca4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f0005d14 for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7f9300006214 for type 'const struct value_type', which requires 8 byte alignment 0x7f9300006214: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7f92f0005d14 for type 'const struct value_type', which requires 8 byte alignment 0x7f92f0005d14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f92f8005ca4 for type 'const struct value_type', which requires 8 byte alignment 0x7f92f8005ca4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92ec005ca4 for type 'struct value_type', which requires 8 byte alignment 0x7f92ec005ca4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e2955c4 for type 'struct value_type', which requires 8 byte alignment 0x55b36e2955c4: note: pointer points here 00 00 00 00 7f 19 60 74 d1 45 c7 3f e8 67 41 92 24 49 c2 3f 0d 00 00 00 73 00 69 00 12 6e 47 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7f92f0005d14 for type 'const struct value_type', which requires 8 byte alignment 0x7f92f0005d14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f93040063d4 for type 'const struct value_type', which requires 8 byte alignment 0x7f93040063d4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f8005ec4 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005ec4: note: pointer points here 73 00 69 00 4f e1 73 d1 45 17 ed 3f 2f e6 46 92 24 49 c2 3f 0d 00 00 00 73 00 69 00 e6 94 60 74 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f9300006214 for type 'const struct value_type', which requires 8 byte alignment 0x7f9300006214: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f8005ec4 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005ec4: note: pointer points here 73 00 69 00 4f e1 73 d1 45 17 ed 3f 2f e6 46 92 24 49 c2 3f 0d 00 00 00 73 00 69 00 e6 94 60 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x55b36e295684 for type 'struct value_type', which requires 8 byte alignment 0x55b36e295684: note: pointer points here 73 00 69 00 4f e1 73 d1 45 17 ed 3f 2f e6 46 92 24 49 c2 3f 0d 00 00 00 73 00 69 00 e6 94 60 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7f92f8005ec4 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005ec4: note: pointer points here 73 00 69 00 4f e1 73 d1 45 17 ed 3f 2f e6 46 92 24 49 c2 3f 0d 00 00 00 73 00 69 00 e6 94 60 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92fc006364 for type 'struct value_type', which requires 8 byte alignment 0x7f92fc006364: note: pointer points here 00 00 00 00 b3 e3 5d 74 d1 45 c7 3f b5 15 3f 92 24 49 b2 3f 0d 00 00 00 73 00 69 00 f7 3e 46 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f93040066cc for type 'struct value_type', which requires 8 byte alignment 0x7f93040066cc: note: pointer points here 73 00 69 00 5d 95 43 8b 6c e7 ef 3f aa 23 49 92 24 49 b2 3f 0d 00 00 00 73 00 69 00 37 32 e3 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7f930000650c for type 'struct value_type', which requires 8 byte alignment 0x7f930000650c: note: pointer points here 00 00 f0 3f 5d 95 43 8b 6c e7 ef 3f aa 23 49 92 24 49 b2 3f 0d 00 00 00 00 00 f0 3f 00 00 14 c0 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7f93040066cc for type 'struct value_type', which requires 8 byte alignment 0x7f93040066cc: note: pointer points here 73 00 69 00 5d 95 43 8b 6c e7 ef 3f aa 23 49 92 24 49 b2 3f 0d 00 00 00 73 00 69 00 37 32 e3 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92fc00649c for type 'struct value_type', which requires 8 byte alignment 0x7f92fc00649c: note: pointer points here 73 00 69 00 5d 95 43 8b 6c e7 ef 3f aa 23 49 92 24 49 b2 3f 0d 00 00 00 73 00 69 00 4a 98 e9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7f92f4005d84 for type 'struct value_type', which requires 8 byte alignment 0x7f92f4005d84: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e29547c for type 'struct value_type', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7f92f8005cbc for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005cbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e29547c for type 'struct value_type', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7f92f8005cbc for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005cbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e29547c for type 'struct value_type', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x7f92f0005d2c for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f92f8005cbc for type 'const struct value_type', which requires 8 byte alignment 0x7f92f8005cbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f92f0005d2c for type 'const struct value_type', which requires 8 byte alignment 0x7f92f0005d2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7f92f8005cbc for type 'const struct value_type', which requires 8 byte alignment 0x7f92f8005cbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x55b36e29547c for type 'const struct value_type', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f0005d2c for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e295464 for type 'struct value_type', which requires 8 byte alignment 0x55b36e295464: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7f92f0005d14 for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e295464 for type 'struct value_type', which requires 8 byte alignment 0x55b36e295464: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7f92f0005d14 for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e29547c for type 'struct value_type', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7f92f0005d2c for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005d2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b36e29547c for type 'struct value_type', which requires 8 byte alignment 0x55b36e29547c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92fc0061bc for type 'struct value_type', which requires 8 byte alignment 0x7f92fc0061bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 b2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7f93040063ec for type 'struct value_type', which requires 8 byte alignment 0x7f93040063ec: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 b2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x55b36e2955c4 for type 'struct value_type', which requires 8 byte alignment 0x55b36e2955c4: note: pointer points here 00 00 00 00 7f 19 60 74 d1 45 c7 3f e8 67 41 92 24 49 c2 3f f3 ff ff ff 73 00 69 00 12 6e 47 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7f930000622c for type 'struct value_type', which requires 8 byte alignment 0x7f930000622c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 92 24 49 92 24 49 b2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7f92f8005cbc for type 'struct value_type', which requires 8 byte alignment 0x7f92f8005cbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 92 24 49 92 24 49 c2 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x55b36e2955ac for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55b36e2955ac: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 7f 19 60 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92fc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7f92fc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7f93040063d4 for type 'struct value_type', which requires 8 byte alignment 0x7f93040063d4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 92 24 49 92 24 49 b2 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f0005e74 for type 'struct value_type', which requires 8 byte alignment 0x7f92f0005e74: note: pointer points here 00 00 00 00 7f 19 60 74 d1 45 c7 3f e8 67 41 92 24 49 c2 3f f3 ff ff ff 00 00 f0 3f 12 6e 47 17 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f93000061fc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f93000061fc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dxbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dxbar" for ibody=12 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 4.0059e-20) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "dybar" ********************************************************* Propagating velocities throughout feature tree /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f92f8024104 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8024104: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x7f92f8024104 for type 'struct value_type', which requires 8 byte alignment 0x7f92f8024104: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 95 24 49 92 24 49 c2 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dybar" for ibody=12 d(Face)/d(dybar) check complete with 0 total errors (errmax= 4.6259e-11) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 6.7977e-20) d(Node)/d(dybar) check complete with 0 total errors (errmax= 5.1302e-10) ********************************************************* Starting geometric sensitivity wrt "dzbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dzbar" for ibody=12 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 3.8146e-11) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 6.7977e-20) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 5.1302e-10) ********************************************************* Starting geometric sensitivity wrt "dxbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dxbox" for ibody=12 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 1.1063e-09) ********************************************************* Starting geometric sensitivity wrt "dybox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dybox" for ibody=12 d(Face)/d(dybox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 5.0845e-20) d(Node)/d(dybox) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "dzbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dzbox" for ibody=12 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 5.0845e-20) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 5.1279e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.119 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1063e-09) with 0 suppressions real 0m6.842s user 0m12.849s sys 0m0.541s ++ set +x -------------------------------------------------------------------------------------------------- ( 92 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE3.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7fb9bc005cf4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9bc005cf4: note: pointer points here ff ff ff ff 4a 98 c9 bf 62 0b 41 0e 4a 98 d9 bf 00 00 00 00 00 00 14 c0 5c 0b 41 0e 4a 98 d9 bf ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7fb9c0005cf4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9c0005cf4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fb9d4006154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9d4006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fb9dc006154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9dc006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7fb9cc0061bc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9cc0061bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7fb9dc006154 for type 'struct type', which requires 8 byte alignment 0x7fb9dc006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7fb9b4005d0c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9b4005d0c: note: pointer points here 00 00 00 00 4a 98 d9 bf 62 0b 41 0e 4a 98 d9 bf 00 00 00 00 00 00 14 c0 87 c8 b0 8a ff ff ff ff ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x55d7ebdb7414 for type 'struct type', which requires 8 byte alignment 0x55d7ebdb7414: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fb9bc005cf4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9bc005cf4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fb9cc006154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9cc006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7fb9dc006154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9dc006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fb9bc005cf4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9bc005cf4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fb9d4006154 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9d4006154: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9dc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7fb9cc006214 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9cc006214: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7fb9c0005cf4 for type 'struct type', which requires 8 byte alignment 0x7fb9c0005cf4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x55d7ebdb7414 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55d7ebdb7414: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7fb9b4005d2c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9b4005d2c: note: pointer points here 00 00 00 00 4a 98 d9 bf 00 00 00 00 00 00 14 c0 60 0b 41 0e 4a 98 e9 bf 62 0b 41 0e 4a 98 d9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d7ebdb7464 for type 'struct value_type', which requires 8 byte alignment 0x55d7ebdb7464: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7fb9b4005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9b4005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7fb9dc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fb9c4005d2c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9c4005d2c: note: pointer points here 00 00 00 00 4a 98 d9 bf 00 00 00 00 00 00 18 c0 60 0b 41 0e 4a 98 e9 bf 62 0b 41 0e 4a 98 d9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9dc006304 for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc006304: note: pointer points here 00 00 00 00 5a 4f 4b 74 d1 45 b7 3f 9d 86 57 55 55 55 e5 3f 0d 00 00 00 73 00 69 00 e6 42 4f 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9cc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9cc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7fb9bc005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7fb9c4005ea4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9c4005ea4: note: pointer points here 00 00 00 00 d7 20 a9 74 d1 45 b7 3f c7 f2 50 55 55 55 d5 3f 0d 00 00 00 00 00 f0 3f 29 3b 98 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c4005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9c4005d5c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x7fb9b4005ea4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9b4005ea4: note: pointer points here 00 00 00 00 5a 4f 4b 74 d1 45 b7 3f 9d 86 57 55 55 55 e5 3f 0d 00 00 00 00 00 f0 3f e6 42 4f 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7fb9d40061bc for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061bc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c0005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7fb9bc005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c4005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9c4005d5c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7fb9bc005d44 for type 'const struct value_type', which requires 8 byte alignment 0x7fb9bc005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7fb9c0005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb9d40061a4 for type 'const struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb9c0005d44 for type 'const struct value_type', which requires 8 byte alignment 0x7fb9c0005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7fb9cc006304 for type 'struct value_type', which requires 8 byte alignment 0x7fb9cc006304: note: pointer points here 00 00 00 00 5a 4f 4b 74 d1 45 b7 3f 9d 86 57 55 55 55 e5 3f 0d 00 00 00 00 00 f0 3f e6 42 4f 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7fb9d40061a4 for type 'const struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb9c4005d44 for type 'const struct value_type', which requires 8 byte alignment 0x7fb9c4005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7fb9b4005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9b4005d5c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 00 00 f0 3f 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c0005f7c for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005f7c: note: pointer points here 00 00 f0 3f e7 db 6a d1 45 17 ed 3f c7 f2 50 55 55 55 d5 3f 0d 00 00 00 00 00 f0 3f 4a 98 e9 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7fb9d40063dc for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40063dc: note: pointer points here 00 00 f0 3f e7 db 6a d1 45 17 ed 3f c7 f2 50 55 55 55 d5 3f 0d 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c0005f7c for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005f7c: note: pointer points here 00 00 f0 3f e7 db 6a d1 45 17 ed 3f c7 f2 50 55 55 55 d5 3f 0d 00 00 00 00 00 f0 3f 4a 98 e9 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7fb9bc005d44 for type 'const struct value_type', which requires 8 byte alignment 0x7fb9bc005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d7ebdb75c4 for type 'struct value_type', which requires 8 byte alignment 0x55d7ebdb75c4: note: pointer points here 00 00 00 00 d7 20 a9 74 d1 45 b7 3f c7 f2 50 55 55 55 d5 3f 0d 00 00 00 00 00 f0 3f 29 3b 98 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7fb9cc0063dc for type 'struct value_type', which requires 8 byte alignment 0x7fb9cc0063dc: note: pointer points here 00 00 f0 3f 15 96 76 d1 45 17 ed 3f 9d 86 57 55 55 55 e5 3f 0d 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9dc006304 for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc006304: note: pointer points here 00 00 00 00 5a 4f 4b 74 d1 45 b7 3f 9d 86 57 55 55 55 e5 3f 0d 00 00 00 73 00 69 00 e6 42 4f 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'const struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x7fb9bc005d5c for type 'const struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7fb9d40061bc for type 'const struct value_type', which requires 8 byte alignment 0x7fb9d40061bc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7fb9bc005d5c for type 'const struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f 0c 00 00 00 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7fb9d40061bc for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061bc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c0005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005d5c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f 0c 00 00 00 00 00 f0 3f 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9dc0061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc0061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 54 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7fb9dc0061bc for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc0061bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7fb9c0005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7fb9d4006304 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d4006304: note: pointer points here 00 00 00 00 d7 20 a9 74 d1 45 b7 3f c7 f2 50 55 55 55 d5 3f f3 ff ff ff 00 00 f0 3f 29 3b 98 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9bc005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9bc005d5c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 4a 98 c9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7fb9dc0061bc for type 'struct value_type', which requires 8 byte alignment 0x7fb9dc0061bc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 55 55 55 55 55 55 e5 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9b4005ea4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9b4005ea4: note: pointer points here 00 00 00 00 5a 4f 4b 74 d1 45 b7 3f 9d 86 57 55 55 55 e5 3f f3 ff ff ff 00 00 f0 3f e6 42 4f 74 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fb9cc00618c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9cc00618c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7fb9d40061a4 for type 'struct value_type', which requires 8 byte alignment 0x7fb9d40061a4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fb9bc005e8c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fb9bc005e8c: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 5a 4f 4b 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7fb9c4005d5c for type 'struct value_type', which requires 8 byte alignment 0x7fb9c4005d5c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 55 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 4a 98 c9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fb9c0005d44 for type 'struct value_type', which requires 8 byte alignment 0x7fb9c0005d44: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thick" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "thick" for ibody=29 d(Face)/d(thick) check complete with 0 total errors (errmax= 4.6259e-11) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.4191e-20) d(Node)/d(thick) check complete with 0 total errors (errmax= 5.7064e-11) ********************************************************* Starting geometric sensitivity wrt "dxbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dxbar" for ibody=29 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 2.7733e-20) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 1.0256e-09) ********************************************************* Starting geometric sensitivity wrt "dybar" ********************************************************* Propagating velocities throughout feature tree /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55d7ebfe0794 for type 'struct value_type', which requires 8 byte alignment 0x55d7ebfe0794: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x55d7ebfe0794 for type 'struct value_type', which requires 8 byte alignment 0x55d7ebfe0794: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 58 55 55 55 55 55 d5 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dybar" for ibody=29 d(Face)/d(dybar) check complete with 0 total errors (errmax= 4.2474e-11) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dybar) check complete with 0 total errors (errmax= 1.0257e-09) ********************************************************* Starting geometric sensitivity wrt "dzbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dzbar" for ibody=29 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 4.6259e-11) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 1.0257e-09) ********************************************************* Starting geometric sensitivity wrt "dxbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dxbox" for ibody=29 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 1.6191e-09) ********************************************************* Starting geometric sensitivity wrt "dybox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dybox" for ibody=29 d(Face)/d(dybox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dybox) check complete with 0 total errors (errmax= 1.0256e-09) ********************************************************* Starting geometric sensitivity wrt "dzbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dzbox" for ibody=29 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 1.0256e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.426 sec Sensitivity checks complete with 0 total errors (max geom err= 1.6191e-09) with 0 suppressions real 0m13.940s user 0m22.739s sys 0m0.762s ++ set +x -------------------------------------------------------------------------------------------------- ( 93 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE4.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7f355400610c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f355400610c: note: pointer points here 00 00 00 00 00 00 00 00 46 72 55 a7 32 7f 00 00 00 00 00 00 00 00 00 00 0a 00 00 00 ff ff ff ff ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f35c0065684 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35c0065684: note: pointer points here ff ff ff ff fb cf 13 c0 49 9c 10 e1 f3 4e d0 bf 2b 82 e2 45 9c 06 c9 bf 19 39 fc 3b ec a4 08 40 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f358c0060dc for type 'struct value_type', which requires 8 byte alignment 0x7f358c0060dc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f3594063cb4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3594063cb4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f35b406566c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35b406566c: note: pointer points here 21 00 00 00 00 00 00 00 4b a0 54 ab f6 de c1 3f e3 55 51 c3 62 8e e8 3f 51 0e e4 bf 1b b1 0c 40 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f359c00312c for type 'struct value_type', which requires 8 byte alignment 0x7f359c00312c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f35900030dc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35900030dc: note: pointer points here 00 00 00 00 ad 49 c2 54 7d c3 94 25 ad 49 c2 54 7d c3 94 25 ad 49 c2 54 7d c3 94 25 ad 49 c2 54 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f35a4064454 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35a4064454: note: pointer points here ff ff ff ff 17 4f d0 bf 11 a5 01 00 00 00 00 00 20 19 00 a4 35 7f 00 00 b0 29 00 a4 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35580030bc for type 'struct value_type', which requires 8 byte alignment 0x7f35580030bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x7f35b80657ac for type 'struct value_type', which requires 8 byte alignment 0x7f35b80657ac: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x561e88308b04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x561e88308b04: note: pointer points here ff ff ff ff 00 00 00 00 70 0b 00 90 35 7f 00 00 e0 71 07 0c 36 7f 00 00 d0 4e 09 88 1e 56 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x7f35b80657ac for type 'struct value_type', which requires 8 byte alignment 0x7f35b80657ac: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x561e88308cb4 for type 'struct value_type', which requires 8 byte alignment 0x561e88308cb4: note: pointer points here 00 00 00 00 48 b9 51 74 d1 45 c7 3f d8 65 e6 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f a4 0a 3f 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b80657ac for type 'struct value_type', which requires 8 byte alignment 0x7f35b80657ac: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35580030bc for type 'struct value_type', which requires 8 byte alignment 0x7f35580030bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f3564003114 for type 'struct type', which requires 8 byte alignment 0x7f3564003114: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f359c00312c for type 'struct value_type', which requires 8 byte alignment 0x7f359c00312c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x7f35a8064d8c for type 'struct value_type', which requires 8 byte alignment 0x7f35a8064d8c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x7f35a406446c for type 'struct value_type', which requires 8 byte alignment 0x7f35a406446c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7f35c0065684 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35c0065684: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f356c004da4 for type 'struct type', which requires 8 byte alignment 0x7f356c004da4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f35ac0060f4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35ac0060f4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f358400573c for type 'struct value_type', which requires 8 byte alignment 0x7f358400573c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 3f 0c 00 00 00 73 00 69 00 ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f35b00651e4 for type 'struct type', which requires 8 byte alignment 0x7f35b00651e4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35580030bc for type 'struct value_type', which requires 8 byte alignment 0x7f35580030bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35a8064d8c for type 'struct value_type', which requires 8 byte alignment 0x7f35a8064d8c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x7f35a406446c for type 'struct value_type', which requires 8 byte alignment 0x7f35a406446c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x7f35580030bc for type 'const struct value_type', which requires 8 byte alignment 0x7f35580030bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x7f359c00312c for type 'struct value_type', which requires 8 byte alignment 0x7f359c00312c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35580030bc for type 'struct value_type', which requires 8 byte alignment 0x7f35580030bc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f358400573c for type 'const struct value_type', which requires 8 byte alignment 0x7f358400573c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 3f f4 ff ff ff 73 00 69 00 ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f35a8064d8c for type 'const struct value_type', which requires 8 byte alignment 0x7f35a8064d8c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7f3590003164 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3590003164: note: pointer points here 00 00 00 00 ad 49 c2 54 7d c3 94 25 ad 49 c2 54 7d c3 94 25 ad 49 c2 54 00 00 00 00 00 00 f0 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x7f35a406446c for type 'const struct value_type', which requires 8 byte alignment 0x7f35a406446c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x7f359c00312c for type 'struct value_type', which requires 8 byte alignment 0x7f359c00312c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 e0 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35640032c4 for type 'struct value_type', which requires 8 byte alignment 0x7f35640032c4: note: pointer points here 00 00 00 00 48 b9 51 74 d1 45 c7 3f d8 65 e6 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f a4 0a 3f 17 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f35b4065604 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35b4065604: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3590003314 for type 'struct value_type', which requires 8 byte alignment 0x7f3590003314: note: pointer points here 00 00 f0 3f 7b 92 75 d1 45 17 ed 3f 05 4c a0 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f c7 5a 44 74 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f35b0065234 for type 'const struct value_type', which requires 8 byte alignment 0x7f35b0065234: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f355c005ac4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f355c005ac4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x7f35740648cc for type 'struct value_type', which requires 8 byte alignment 0x7f35740648cc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f3594063cb4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3594063cb4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x7f358c0060dc for type 'struct value_type', which requires 8 byte alignment 0x7f358c0060dc: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f e2 40 f2 ff ff ff df 3f 0c 00 00 00 00 00 f0 3f ff ff ff ff ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:24: runtime error: member access within misaligned address 0x7f3594063ffc for type 'struct value_type', which requires 8 byte alignment 0x7f3594063ffc: note: pointer points here 00 00 f0 3f e4 94 43 8b 6c e7 ef 3f 12 cb 06 b2 3a 76 b1 3f 0d 00 00 00 00 00 f0 3f 2e ca bd 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x7f35ac006144 for type 'const struct value_type', which requires 8 byte alignment 0x7f35ac006144: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f35540060f4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35540060f4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b406594c for type 'struct value_type', which requires 8 byte alignment 0x7f35b406594c: note: pointer points here 00 00 f0 3f e4 94 43 8b 6c e7 ef 3f 12 cb 06 b2 3a 76 b1 3f 0d 00 00 00 00 00 f0 3f 08 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:249:14: runtime error: member access within misaligned address 0x7f35b406594c for type 'struct value_type', which requires 8 byte alignment 0x7f35b406594c: note: pointer points here 00 00 f0 3f e4 94 43 8b 6c e7 ef 3f 12 cb 06 b2 3a 76 b1 3f 0d 00 00 00 00 00 f0 3f 08 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065234 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065234: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7f3590003314 for type 'struct value_type', which requires 8 byte alignment 0x7f3590003314: note: pointer points here 00 00 f0 3f 7b 92 75 d1 45 17 ed 3f 05 4c a0 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f c7 5a 44 74 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f35580030a4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f35580030a4: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3564003384 for type 'struct value_type', which requires 8 byte alignment 0x7f3564003384: note: pointer points here 00 00 f0 3f 7b 92 75 d1 45 17 ed 3f 05 4c a0 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f c7 5a 44 74 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f357c005f24 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f357c005f24: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x7f355c005b14 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005b14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b006524c for type 'struct value_type', which requires 8 byte alignment 0x7f35b006524c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 8e df 06 00 00 00 e0 3f 0b 00 00 00 00 00 f0 3f 81 6d 0f 40 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x7f35b80657ac for type 'struct value_type', which requires 8 byte alignment 0x7f35b80657ac: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 f8 ff ff ff ff ff df 3f f4 ff ff ff 00 00 f0 3f ff ff ff ff ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3594063ffc for type 'struct value_type', which requires 8 byte alignment 0x7f3594063ffc: note: pointer points here 00 00 f0 3f e4 94 43 8b 6c e7 ef 3f 12 cb 06 b2 3a 76 b1 3f 0d 00 00 00 00 00 f0 3f 2e ca bd 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7f3554006364 for type 'struct value_type', which requires 8 byte alignment 0x7f3554006364: note: pointer points here 00 00 f0 3f 7b 92 75 d1 45 17 ed 3f 05 4c a0 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f c7 5a 44 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x7f35c0065894 for type 'struct value_type', which requires 8 byte alignment 0x7f35c0065894: note: pointer points here 00 00 00 00 d2 41 58 74 d1 45 c7 3f 6d a8 40 b2 3a 76 b1 3f 0d 00 00 00 73 00 69 00 bd ef 42 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x561e88308cb4 for type 'struct value_type', which requires 8 byte alignment 0x561e88308cb4: note: pointer points here 00 00 00 00 48 b9 51 74 d1 45 c7 3f d8 65 e6 0e 3a 76 c1 3f 0d 00 00 00 00 00 f0 3f a4 0a 3f 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x7f356c004df4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004df4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b006524c for type 'struct value_type', which requires 8 byte alignment 0x7f35b006524c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 8e df 06 00 00 00 e0 3f 0b 00 00 00 00 00 f0 3f 81 6d 0f 40 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35ac006144 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006144: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x7f355c005b2c for type 'struct value_type', which requires 8 byte alignment 0x7f355c005b2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 8e df 06 00 00 00 e0 3f 0b 00 00 00 00 00 f0 3f 4a 98 e9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x7f356c004e0c for type 'struct value_type', which requires 8 byte alignment 0x7f356c004e0c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 8e df 06 00 00 00 e0 3f 0b 00 00 00 00 00 f0 3f 35 7f 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355c005d04 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d04: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f355c005d04 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d04: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b406566c for type 'struct value_type', which requires 8 byte alignment 0x7f35b406566c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 fd 1d 08 b2 3a 76 b1 3f 0c 00 00 00 00 00 f0 3f 1b b1 0c 40 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355c005d04 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d04: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35ac0063f4 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac0063f4: note: pointer points here 00 00 f0 3f 2e ab 16 74 d1 45 c7 3f 87 51 b7 b3 03 00 e0 3f 0d 00 00 00 00 00 f0 3f 1a 2d 37 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7f35b406566c for type 'struct value_type', which requires 8 byte alignment 0x7f35b406566c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 fd 1d 08 b2 3a 76 b1 3f 0c 00 00 00 00 00 f0 3f 1b b1 0c 40 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:470:28: runtime error: member access within misaligned address 0x7f356c0050a4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c0050a4: note: pointer points here 00 00 f0 3f 2e ab 16 74 d1 45 c7 3f 87 51 b7 b3 03 00 e0 3f 0d 00 00 00 00 00 f0 3f 1a 2d 37 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355c005d04 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d04: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355400615c for type 'struct value_type', which requires 8 byte alignment 0x7f355400615c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355c005b14 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005b14: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f355400615c for type 'const struct value_type', which requires 8 byte alignment 0x7f355400615c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7f357c005f8c for type 'const struct value_type', which requires 8 byte alignment 0x7f357c005f8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 fd 1d 08 b2 3a 76 b1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355c005b2c for type 'struct value_type', which requires 8 byte alignment 0x7f355c005b2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 8e df 06 00 00 00 e0 3f 0b 00 00 00 00 00 f0 3f 4a 98 e9 bf ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f357c005f8c for type 'struct value_type', which requires 8 byte alignment 0x7f357c005f8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 fd 1d 08 b2 3a 76 b1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:470:18: runtime error: member access within misaligned address 0x7f356c0050a4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c0050a4: note: pointer points here 00 00 f0 3f 2e ab 16 74 d1 45 c7 3f 87 51 b7 b3 03 00 e0 3f 0d 00 00 00 00 00 f0 3f 1a 2d 37 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x7f357c005f8c for type 'struct value_type', which requires 8 byte alignment 0x7f357c005f8c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 fd 1d 08 b2 3a 76 b1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7f35b406566c for type 'struct value_type', which requires 8 byte alignment 0x7f35b406566c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 fd 1d 08 b2 3a 76 b1 3f 0c 00 00 00 00 00 f0 3f 1b b1 0c 40 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:498:16: runtime error: member access within misaligned address 0x7f35b0065234 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065234: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f d9 1e e1 fe ff ff df 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:498:35: runtime error: member access within misaligned address 0x7f355c005b2c for type 'struct value_type', which requires 8 byte alignment 0x7f355c005b2c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 8e df 06 00 00 00 e0 3f 0b 00 00 00 00 00 f0 3f 4a 98 e9 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x7f355400615c for type 'const struct value_type', which requires 8 byte alignment 0x7f355400615c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f357c00611c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f357c00611c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 d2 41 58 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x561e88308b6c for type 'const struct value_type', which requires 8 byte alignment 0x561e88308b6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f 0c 00 00 00 00 00 f0 3f 00 00 14 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f356c004ffc for type 'struct value_type', which requires 8 byte alignment 0x7f356c004ffc: note: pointer points here 00 00 f0 3f c7 4f 3c 17 5d 74 d1 3f 02 f8 b2 1f f4 ff df 3f 0d 00 00 00 00 00 f0 3f 86 c5 59 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355400615c for type 'struct value_type', which requires 8 byte alignment 0x7f355400615c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355c005d1c for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d1c: note: pointer points here 00 00 f0 3f c7 4f 3c 17 5d 74 d1 3f 02 f8 b2 1f f4 ff df 3f 0d 00 00 00 00 00 f0 3f 86 c5 59 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35ac0063f4 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac0063f4: note: pointer points here 00 00 f0 3f 2e ab 16 74 d1 45 c7 3f 87 51 b7 b3 03 00 e0 3f 0d 00 00 00 00 00 f0 3f 1a 2d 37 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x7f356400317c for type 'struct value_type', which requires 8 byte alignment 0x7f356400317c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f 0c 00 00 00 00 00 f0 3f ad 49 c2 54 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f359000310c for type 'struct value_type', which requires 8 byte alignment 0x7f359000310c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f 0c 00 00 00 00 00 f0 3f ad 49 c2 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7f356c004ffc for type 'struct value_type', which requires 8 byte alignment 0x7f356c004ffc: note: pointer points here 00 00 f0 3f c7 4f 3c 17 5d 74 d1 3f 02 f8 b2 1f f4 ff df 3f 0d 00 00 00 00 00 f0 3f 86 c5 59 74 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x561e88308b6c for type 'struct value_type', which requires 8 byte alignment 0x561e88308b6c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f f4 ff ff ff 00 00 f0 3f 00 00 14 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f355400615c for type 'struct value_type', which requires 8 byte alignment 0x7f355400615c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7f356400317c for type 'struct value_type', which requires 8 byte alignment 0x7f356400317c: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 0f 51 a2 0e 3a 76 c1 3f f4 ff ff ff 00 00 f0 3f ad 49 c2 54 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:436:26: runtime error: member access within misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:437:29: runtime error: member access within misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x7f355c005d1c for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d1c: note: pointer points here 00 00 f0 3f c7 4f 3c 17 5d 74 d1 3f 02 f8 b2 1f f4 ff df 3f 0d 00 00 00 00 00 f0 3f 86 c5 59 74 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f356c005044 for type 'struct value_type', which requires 8 byte alignment 0x7f356c005044: note: pointer points here 00 00 f0 3f 72 27 46 17 5d 74 e1 3f 2e b1 f3 20 ef ff df 3f 0d 00 00 00 00 00 f0 3f 3a 1d d3 45 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x7f356c005044 for type 'struct value_type', which requires 8 byte alignment 0x7f356c005044: note: pointer points here 00 00 f0 3f 72 27 46 17 5d 74 e1 3f 2e b1 f3 20 ef ff df 3f 0d 00 00 00 00 00 f0 3f 3a 1d d3 45 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f356c005044 for type 'struct value_type', which requires 8 byte alignment 0x7f356c005044: note: pointer points here 00 00 f0 3f 72 27 46 17 5d 74 e1 3f 2e b1 f3 20 ef ff df 3f 0d 00 00 00 00 00 f0 3f 3a 1d d3 45 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x7f356c005044 for type 'struct value_type', which requires 8 byte alignment 0x7f356c005044: note: pointer points here 00 00 f0 3f 72 27 46 17 5d 74 e1 3f 2e b1 f3 20 ef ff df 3f 0d 00 00 00 00 00 f0 3f 3a 1d d3 45 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:471:26: runtime error: member access within misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:472:29: runtime error: member access within misaligned address 0x7f356c004fe4 for type 'struct value_type', which requires 8 byte alignment 0x7f356c004fe4: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0d 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0c 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x7f35ac006334 for type 'struct value_type', which requires 8 byte alignment 0x7f35ac006334: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0c 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x7f355c005d04 for type 'struct value_type', which requires 8 byte alignment 0x7f355c005d04: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0c 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f35b0065424 for type 'struct value_type', which requires 8 byte alignment 0x7f35b0065424: note: pointer points here 00 00 00 00 b4 82 31 74 d1 45 c7 3f 10 48 91 98 f8 ff df 3f 0c 00 00 00 00 00 f0 3f c7 4f 3c 17 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "thick" ********************************************************* Propagating velocities throughout feature tree /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f358400b954 for type 'struct value_type', which requires 8 byte alignment 0x7f358400b954: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:406:39: runtime error: member access within misaligned address 0x7f358400b954 for type 'struct value_type', which requires 8 byte alignment 0x7f358400b954: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f358400b954 for type 'struct value_type', which requires 8 byte alignment 0x7f358400b954: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:407:39: runtime error: member access within misaligned address 0x7f358400b954 for type 'struct value_type', which requires 8 byte alignment 0x7f358400b954: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f358400b954 for type 'struct value_type', which requires 8 byte alignment 0x7f358400b954: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:440:16: runtime error: member access within misaligned address 0x7f358400b954 for type 'struct value_type', which requires 8 byte alignment 0x7f358400b954: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:441:16: runtime error: member access within misaligned address 0x7f35a4067854 for type 'struct value_type', which requires 8 byte alignment 0x7f35a4067854: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x561e8870e7f4 for type 'struct value_type', which requires 8 byte alignment 0x561e8870e7f4: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 f0 3f 98 98 b7 a7 66 00 e0 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "thick" for ibody=29 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.1753e-08) d(Edge)/d(thick) check complete with 0 total errors (errmax= 9.9092e-14) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.0703e-09) ********************************************************* Starting geometric sensitivity wrt "dxbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dxbar" for ibody=29 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 2.2260e-07) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 1.1501e-11) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 3.0163e-09) ********************************************************* Starting geometric sensitivity wrt "dybar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dybar" for ibody=29 d(Face)/d(dybar) check complete with 0 total errors (errmax= 7.8790e-11) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 1.9749e-17) d(Node)/d(dybar) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "dzbar" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dzbar" for ibody=29 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 6.6451e-11) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 7.1121e-18) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "dxbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dxbox" for ibody=29 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 2.2260e-07) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 1.1502e-11) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 3.1120e-09) ********************************************************* Starting geometric sensitivity wrt "dybox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dybox" for ibody=29 d(Face)/d(dybox) check complete with 0 total errors (errmax= 5.8612e-11) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 3.1585e-18) d(Node)/d(dybox) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dzbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=29 Computing finite difference sensitivities for ibody=29 Comparing geometric sensitivities wrt "dzbox" for ibody=29 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 7.0539e-11) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 1.9749e-17) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.368 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2260e-07) with 0 suppressions real 0m32.862s user 1m3.124s sys 0m3.206s ++ set +x -------------------------------------------------------------------------------------------------- ( 94 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE5.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "xcent" for ibody=5 d(Face)/d(xcent) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 5.8095e-12) d(Node)/d(xcent) check complete with 0 total errors (errmax= 4.9887e-07) ********************************************************* Starting geometric sensitivity wrt "ycent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "ycent" for ibody=5 d(Face)/d(ycent) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.9269e-19) d(Node)/d(ycent) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "thick" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "thick" for ibody=5 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.8870e-13) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.2796e-20) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.8870e-13) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "rad" for ibody=5 d(Face)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rad) check complete with 0 total errors (errmax= 2.8077e-13) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8065e-07) ********************************************************* Starting geometric sensitivity wrt "xbox" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "xbox" for ibody=5 d(Face)/d(xbox) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xbox) check complete with 0 total errors (errmax= 1.0199e-12) d(Node)/d(xbox) check complete with 0 total errors (errmax= 4.9902e-07) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dx" for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.6855e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 6.3706e-14) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.2542e-07) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dy" for ibody=5 d(Face)/d(dy) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(dy) check complete with 0 total errors (errmax= 3.4191e-20) d(Node)/d(dy) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dz" for ibody=5 d(Face)/d(dz) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(dz) check complete with 0 total errors (errmax= 5.2450e-20) d(Node)/d(dz) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.400 sec Sensitivity checks complete with 0 total errors (max geom err= 4.9902e-07) with 0 suppressions real 0m3.433s user 0m4.809s sys 0m0.366s ++ set +x -------------------------------------------------------------------------------------------------- ( 95 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE6.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xsize" for ibody=3 d(Face)/d(xsize) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(xsize) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "ysize" for ibody=3 d(Face)/d(ysize) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 5.2450e-20) d(Node)/d(ysize) check complete with 0 total errors (errmax= 2.3748e-11) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "zsize" for ibody=3 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.8870e-13) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 7.7514e-24) d(Node)/d(zsize) check complete with 0 total errors (errmax= 1.6588e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m0.746s user 0m0.728s sys 0m0.312s ++ set +x -------------------------------------------------------------------------------------------------- ( 96 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE7.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "dx" for ibody=6 d(Face)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xcent" for ibody=6 d(Face)/d(xcent) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 1.2403e-20) d(Node)/d(xcent) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ycent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ycent" for ibody=6 d(Face)/d(ycent) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.2403e-20) d(Node)/d(ycent) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "size" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "size" for ibody=6 d(Face)/d(size) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(size) check complete with 0 total errors (errmax= 5.0758e-20) d(Node)/d(size) check complete with 0 total errors (errmax= 4.0350e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.057 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.545s user 0m1.930s sys 0m0.366s ++ set +x -------------------------------------------------------------------------------------------------- ( 97 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE8.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dx" for ibody=7 d(Face)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(dx) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xcent" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xcent" for ibody=7 d(Face)/d(xcent) check complete with 0 total errors (errmax= 5.5173e-11) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 1.8501e-19) d(Node)/d(xcent) check complete with 0 total errors (errmax= 6.4120e-11) ********************************************************* Starting geometric sensitivity wrt "size" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "size" for ibody=7 d(Face)/d(size) check complete with 0 total errors (errmax= 4.3767e-11) d(Edge)/d(size) check complete with 0 total errors (errmax= 8.3174e-20) d(Node)/d(size) check complete with 0 total errors (errmax= 3.3701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.051 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.180s user 0m1.406s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 98 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE9.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dx" for ibody=8 d(Face)/d(dx) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dx) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dy" for ibody=8 d(Face)/d(dy) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dy) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dxall" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dxall" for ibody=8 d(Face)/d(dxall) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dxall) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dxall) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dyall" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dyall" for ibody=8 d(Face)/d(dyall) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dyall) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dyall) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dzall" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dzall" for ibody=8 d(Face)/d(dzall) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dzall) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(dzall) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.072 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m1.626s user 0m2.321s sys 0m0.450s ++ set +x -------------------------------------------------------------------------------------------------- ( 99 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designEa.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dxtop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dxtop" for ibody=7 d(Face)/d(dxtop) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dxtop) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(dxtop) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dztop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dztop" for ibody=7 d(Face)/d(dztop) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dztop) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(dztop) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dxbot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dxbot" for ibody=7 d(Face)/d(dxbot) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxbot) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(dxbot) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dzbot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dzbot" for ibody=7 d(Face)/d(dzbot) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dzbot) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dzbot) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.046 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.417s user 0m1.648s sys 0m0.408s ++ set +x -------------------------------------------------------------------------------------------------- ( 100 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designEb.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dxtop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dxtop" for ibody=8 d(Face)/d(dxtop) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dxtop) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(dxtop) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dxbot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dxbot" for ibody=8 d(Face)/d(dxbot) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dxbot) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(dxbot) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dy" for ibody=8 d(Face)/d(dy) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(dy) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(dy) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dz" for ibody=8 d(Face)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.082 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.258s user 0m2.021s sys 0m0.313s ++ set +x -------------------------------------------------------------------------------------------------- ( 101 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF0bb.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.3856e-18) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.3478e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.1799e-20) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.2983e-18) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[1,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[2,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.0774e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 9.7796e-13) d(Node)/d(height) check complete with 0 total errors (errmax= 1.4692e-26) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[3,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.1502e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.7910e-12) d(Node)/d(height) check complete with 0 total errors (errmax= 1.4692e-26) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[4,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.9739e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.0609e-11) d(Node)/d(height) check complete with 0 total errors (errmax= 6.1232e-28) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[5,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[1,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[2,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 8.3869e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4111e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[3,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 6.4857e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.3852e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 5.9209e-11) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[4,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 8.2300e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.2809e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[5,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rnose" for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rtail" for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 5.7392e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xbase" for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.1373e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ybase" for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 7.0746e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.4108e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zbase" for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 6.3997e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8873e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.193 sec Sensitivity checks complete with 0 total errors (max geom err= 8.3869e-05) with 0 suppressions real 0m23.887s user 0m23.632s sys 0m0.310s ++ set +x -------------------------------------------------------------------------------------------------- ( 102 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1bb.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.6985e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.8879e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.3005e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.0757e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 3.8665e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.5144e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[1,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[2,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 5.9521e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 9.7796e-13) d(Node)/d(height) check complete with 0 total errors (errmax= 1.4692e-26) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[3,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.6824e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.2530e-18) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[4,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4159e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.0609e-11) d(Node)/d(height) check complete with 0 total errors (errmax= 6.1232e-28) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[5,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[1,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[2,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.9721e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4111e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[3,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 9.4965e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.8756e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[4,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.8573e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.2809e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[5,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rnose" for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rtail" for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 2.8452e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbase" for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.1373e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybase" for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.3952e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.5857e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbase" for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 4.8474e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.6224e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.926 sec Sensitivity checks complete with 0 total errors (max geom err= 9.4965e-05) with 0 suppressions real 0m9.891s user 0m9.532s sys 0m0.317s ++ set +x -------------------------------------------------------------------------------------------------- ( 103 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1rr.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.0170e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.5004e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.1052e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 5.4027e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.1659e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.8611e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.7933e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.5551e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.2614e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.6455e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[1,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 8.9768e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[2,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 6.3527e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 4.4169e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[3,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.6740e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.3948e-16) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[4,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.6840e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 7.1831e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[5,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 8.9768e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[1,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 8.9768e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[2,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 4.3706e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.3348e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[3,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 4.8075e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.3390e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[4,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 3.4718e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.4258e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[5,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 8.9768e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rnose" for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.6010e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 4.4166e-12) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rtail" for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 4.6560e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.4967e-12) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xbase" for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.4284e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 5.1452e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ybase" for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 9.8837e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.0290e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zbase" for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.4229e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 7.9157e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.285 sec Sensitivity checks complete with 0 total errors (max geom err= 4.8075e-05) with 0 suppressions real 0m20.210s user 0m20.369s sys 0m0.264s ++ set +x -------------------------------------------------------------------------------------------------- ( 104 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1rs.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.8946e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.5518e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.9962e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 5.3976e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.1032e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.3064e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.0271e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.7320e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.1536e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.5218e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[1,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 7.7692e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[2,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 5.6248e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 4.1407e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[3,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 8.4881e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.8196e-16) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[4,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.5686e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 5.8018e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[5,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 7.7692e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[1,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 7.7692e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[2,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 3.6017e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.3268e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[3,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 4.1861e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.8892e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[4,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 3.3780e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.5710e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[5,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 7.7692e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rnose" for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.3794e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 4.4166e-12) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rtail" for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 7.7692e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xbase" for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.2309e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.5280e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ybase" for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 8.5869e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.8178e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zbase" for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.2225e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.1820e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.442 sec Sensitivity checks complete with 0 total errors (max geom err= 4.1861e-05) with 0 suppressions real 0m21.277s user 0m21.437s sys 0m0.308s ++ set +x -------------------------------------------------------------------------------------------------- ( 105 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1sr.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.0946e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.1855e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.0135e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.1802e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.3409e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.2506e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.6098e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.5550e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.8660e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.5850e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[1,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.1628e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[2,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.1193e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.1273e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[3,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 7.8548e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 4.0783e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[4,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.2585e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 6.4330e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[5,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.1628e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[1,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 9.1628e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[2,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 3.1882e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.7630e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[3,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 3.9148e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.1312e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[4,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 2.4788e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.4303e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[5,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 9.1628e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rnose" for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 9.1628e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rtail" for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 3.8147e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.4967e-12) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xbase" for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.4562e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.4190e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ybase" for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0091e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.1769e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zbase" for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.5230e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 7.9765e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.542 sec Sensitivity checks complete with 0 total errors (max geom err= 3.9148e-05) with 0 suppressions real 0m24.336s user 0m24.819s sys 0m0.320s ++ set +x -------------------------------------------------------------------------------------------------- ( 106 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1ss.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.3447e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.2369e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.3681e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.1797e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.3100e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.6958e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.6279e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.7319e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.8831e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.4613e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[1,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 7.7275e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[2,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 3.6988e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.8510e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[3,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 7.4297e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.8327e-16) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[4,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.2602e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 5.0517e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "height[5,1]" for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 7.7275e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[1,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 7.7275e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[2,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 2.8926e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.7550e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[3,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 3.7483e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.6814e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[4,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 2.6651e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.5755e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "width[5,1]" for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 7.7275e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rnose" for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 7.7275e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "Rtail" for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 7.7275e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xbase" for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.2600e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.8018e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ybase" for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 8.4975e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.9658e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zbase" for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.0456e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.1537e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.518 sec Sensitivity checks complete with 0 total errors (max geom err= 3.7483e-05) with 0 suppressions real 0m21.963s user 0m22.695s sys 0m0.272s ++ set +x -------------------------------------------------------------------------------------------------- ( 107 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2bb.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.8825e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.9173e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.0758e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.0072e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 3.0068e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.3734e-16) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "height[1,1]" for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "height[2,1]" for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 6.7731e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 9.7796e-13) d(Node)/d(height) check complete with 0 total errors (errmax= 1.4692e-26) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "height[3,1]" for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 1.3493e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.7588e-18) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "height[4,1]" for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4816e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.0609e-11) d(Node)/d(height) check complete with 0 total errors (errmax= 6.1232e-28) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "height[5,1]" for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "width[1,1]" for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "width[2,1]" for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 6.4077e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4111e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "width[3,1]" for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 8.5882e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 9.2048e-16) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "width[4,1]" for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 6.3260e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.2809e-06) d(Node)/d(width) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "width[5,1]" for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "Rnose" for ibody=8 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "Rtail" for ibody=8 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 2.9423e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xbase" for ibody=8 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.1373e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "ybase" for ibody=8 d(Face)/d(ybase) check complete with 0 total errors (errmax= 5.4235e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.5857e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "zbase" for ibody=8 d(Face)/d(zbase) check complete with 0 total errors (errmax= 5.0211e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 7.3542e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.459 sec Sensitivity checks complete with 0 total errors (max geom err= 8.5882e-05) with 0 suppressions real 0m6.550s user 0m5.869s sys 0m0.280s ++ set +x -------------------------------------------------------------------------------------------------- ( 108 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2rr.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.6794e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.1066e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.9979e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.8787e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.1846e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.2417e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.1164e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.6330e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.2146e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.9420e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[1,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.5504e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[2,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 6.4259e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 4.7220e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[3,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 9.9633e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.5634e-16) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[4,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.6336e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 8.3555e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[5,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.5504e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[1,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 8.5504e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[2,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 4.3565e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.1443e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[3,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 4.2551e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.2477e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[4,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.2576e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.2045e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[5,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 8.5504e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rnose" for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.5383e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 4.5649e-12) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rtail" for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 4.4427e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.4052e-12) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbase" for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.3748e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.3922e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybase" for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 9.3355e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.9582e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbase" for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.1908e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.8771e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.734 sec Sensitivity checks complete with 0 total errors (max geom err= 4.3565e-05) with 0 suppressions real 0m22.121s user 0m21.584s sys 0m0.338s ++ set +x -------------------------------------------------------------------------------------------------- ( 109 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2rs.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.2651e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.1171e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.4102e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.5583e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.2290e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.3523e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.4759e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 8.3156e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.6181e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 5.2330e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[1,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 7.6604e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[2,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 5.6209e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 5.3139e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[3,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.5063e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.6406e-16) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[4,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.5415e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 7.2937e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[5,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 7.6604e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[1,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 7.6604e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[2,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.8802e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.1183e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[3,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.6948e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.5234e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[4,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.2472e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.5704e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[5,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 7.6604e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rnose" for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.4293e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 4.6103e-12) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rtail" for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 7.6604e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbase" for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.3209e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.2185e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybase" for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 8.4606e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 6.3602e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbase" for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.3907e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.5596e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.582 sec Sensitivity checks complete with 0 total errors (max geom err= 3.8802e-05) with 0 suppressions real 0m20.701s user 0m20.243s sys 0m0.352s ++ set +x -------------------------------------------------------------------------------------------------- ( 110 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2sr.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.7461e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 8.4985e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.0205e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.2415e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.9344e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.2290e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.6404e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.2895e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.6755e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.7504e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[1,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.7187e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[2,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 4.3884e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.0788e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[3,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.2533e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.1391e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[4,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.3485e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 5.8933e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[5,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.7187e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[1,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 8.7187e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[2,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.2418e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.9518e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[3,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.3804e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.9753e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[4,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 2.6158e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 3.1787e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[5,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 8.7187e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rnose" for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 8.7187e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rtail" for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 3.7302e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.4354e-12) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbase" for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.3865e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.5088e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybase" for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 9.3211e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.5360e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbase" for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.0011e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0669e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.435 sec Sensitivity checks complete with 0 total errors (max geom err= 3.3804e-05) with 0 suppressions real 0m29.561s user 0m27.744s sys 0m0.397s ++ set +x -------------------------------------------------------------------------------------------------- ( 111 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2ss.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xloc[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[1,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.5505e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 8.7112e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xloc[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[2,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.8937e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.9997e-15) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[3,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.7344e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.4172e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[4,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.1185e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 8.1385e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xloc[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xloc[5,1]" for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.4592e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 5.0496e-14) d(Node)/d(xloc) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "height[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[1,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 7.7797e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[2,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 4.0040e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 4.6434e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[3,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 7.5115e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.9861e-16) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[4,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.2419e-07) d(Edge)/d(height) check complete with 0 total errors (errmax= 4.7165e-17) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "height[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "height[5,1]" for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 7.7797e-11) d(Edge)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[1,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 7.7797e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[2,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.2841e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.9392e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[3,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[3,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 3.1982e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.2320e-15) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[4,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[4,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 2.5587e-05) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.5290e-14) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "width[5,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "width[5,1]" for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 7.7797e-11) d(Edge)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rnose" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rnose" for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 7.7797e-11) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Rtail" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "Rtail" for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 7.7797e-11) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbase" for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.2394e-10) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 2.3269e-18) d(Node)/d(xbase) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "ybase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybase" for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 8.4015e-11) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.2894e-30) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zbase" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbase" for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.1612e-11) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.4737e-18) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.261 sec Sensitivity checks complete with 0 total errors (max geom err= 3.2841e-05) with 0 suppressions real 0m19.219s user 0m19.842s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 112 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "area" for ibody=8 d(Face)/d(area) check complete with 0 total errors (errmax= 1.7349e-09) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9656e-16) d(Node)/d(area) check complete with 0 total errors (errmax= 3.0243e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "aspect" for ibody=8 d(Face)/d(aspect) check complete with 0 total errors (errmax= 2.0545e-08) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 7.3887e-14) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "taper" for ibody=8 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2281e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 6.5316e-11) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6795e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "twist" for ibody=8 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.5399e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(twist) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "lesweep" for ibody=8 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.4795e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.2688e-16) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 9.2710e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dihedral" for ibody=8 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 9.5903e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.6696e-18) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 1.8477e-11) ********************************************************* Starting geometric sensitivity wrt "thick_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "thick_r" for ibody=8 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 7.9015e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.3121e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 7.6200e-11) ********************************************************* Starting geometric sensitivity wrt "camber_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "camber_r" for ibody=8 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 3.9546e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.4680e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5258e-08) ********************************************************* Starting geometric sensitivity wrt "thick_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "thick_t" for ibody=8 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 5.5399e-11) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "camber_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "camber_t" for ibody=8 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 5.5399e-11) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.172 sec Sensitivity checks complete with 0 total errors (max geom err= 7.9015e-05) with 0 suppressions real 0m3.697s user 0m4.223s sys 0m0.256s ++ set +x -------------------------------------------------------------------------------------------------- ( 113 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "area" for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 7.3464e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9251e-12) d(Node)/d(area) check complete with 0 total errors (errmax= 1.7294e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "aspect" for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8781e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2321e-10) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "taper" for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7223e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4776e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6769e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "twist" for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.9202e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4626e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.8904e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "lesweep" for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.6010e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.3909e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dihedral" for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.1139e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2583e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.4501e-11) ********************************************************* Starting geometric sensitivity wrt "thick_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "thick_r" for ibody=12 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 2.6977e-02) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.3036e-06) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 7.6145e-11) ********************************************************* Starting geometric sensitivity wrt "camber_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "camber_r" for ibody=12 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 6.8315e-03) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.3907e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5079e-08) ********************************************************* Starting geometric sensitivity wrt "thick_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "thick_t" for ibody=12 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 2.4537e-02) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 3.2996e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 2.8323e-10) ********************************************************* Starting geometric sensitivity wrt "camber_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "camber_t" for ibody=12 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 4.2305e-03) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 3.3762e-08) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 1.2827e-08) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 5.430 sec Sensitivity checks complete with 16 total errors (max geom err= 2.6977e-02) with 0 suppressions real 0m21.869s user 0m22.992s sys 0m0.308s ++ set +x -------------------------------------------------------------------------------------------------- ( 114 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "area" for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 7.3464e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9251e-12) d(Node)/d(area) check complete with 0 total errors (errmax= 1.7294e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "area" for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 7.3140e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9238e-12) d(Node)/d(area) check complete with 0 total errors (errmax= 1.9751e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "aspect" for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8781e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2321e-10) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "aspect" for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8550e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2323e-10) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.3045e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "taper" for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7223e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4776e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6769e-07) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "taper" for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7037e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4776e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6795e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "twist" for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.9202e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4626e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.8904e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "twist" for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.7947e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4280e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.8086e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "lesweep" for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.6010e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.3909e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "lesweep" for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.7321e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.2963e-16) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dihedral" for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.1139e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2583e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.4501e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dihedral" for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.3296e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2583e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.4501e-11) ********************************************************* Starting geometric sensitivity wrt "thick_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "thick_r" for ibody=17 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 2.6977e-02) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.3036e-06) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 7.6145e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "thick_r" for ibody=19 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 2.6995e-02) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.3035e-06) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 5.8893e-10) ********************************************************* Starting geometric sensitivity wrt "camber_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "camber_r" for ibody=17 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 6.8315e-03) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.3907e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5079e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "camber_r" for ibody=19 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 6.8745e-03) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.3907e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5255e-08) ********************************************************* Starting geometric sensitivity wrt "thick_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "thick_t" for ibody=17 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 2.4537e-02) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 3.2996e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 2.8323e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "thick_t" for ibody=19 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 2.4576e-02) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 3.2996e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 2.2957e-10) ********************************************************* Starting geometric sensitivity wrt "camber_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "camber_t" for ibody=17 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 4.2305e-03) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 3.3762e-08) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 1.2827e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "camber_t" for ibody=19 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 4.2076e-03) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 3.3762e-08) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 1.2983e-08) ********************************************************* Starting geometric sensitivity wrt "dxwing" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dxwing" for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.1048e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dxwing" for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 3.9271e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 6.3430e-17) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 5.9349e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 11.284 sec Sensitivity checks complete with 32 total errors (max geom err= 2.6995e-02) with 0 suppressions real 1m0.890s user 1m3.802s sys 0m0.320s ++ set +x -------------------------------------------------------------------------------------------------- ( 115 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "area" for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 7.3464e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9251e-12) d(Node)/d(area) check complete with 0 total errors (errmax= 1.7294e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "aspect" for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8781e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2321e-10) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "taper" for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7223e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4776e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6769e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "twist" for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.9202e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4626e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.8904e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "lesweep" for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.6010e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.3909e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dihedral" for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.1139e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2583e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.4501e-11) ********************************************************* Starting geometric sensitivity wrt "thick_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "thick_r" for ibody=12 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 2.6977e-02) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.3036e-06) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 7.6145e-11) ********************************************************* Starting geometric sensitivity wrt "camber_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "camber_r" for ibody=12 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 6.8315e-03) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.3907e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5079e-08) ********************************************************* Starting geometric sensitivity wrt "thick_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "thick_t" for ibody=12 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 2.4537e-02) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 3.2996e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 2.8323e-10) ********************************************************* Starting geometric sensitivity wrt "camber_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "camber_t" for ibody=12 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 4.2305e-03) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 3.3762e-08) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 1.2827e-08) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 5.110 sec Sensitivity checks complete with 16 total errors (max geom err= 2.6977e-02) with 0 suppressions real 0m19.364s user 0m20.482s sys 0m0.276s ++ set +x -------------------------------------------------------------------------------------------------- ( 116 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "area" for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 7.3464e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9251e-12) d(Node)/d(area) check complete with 0 total errors (errmax= 1.7294e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "area" for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 7.3140e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.9238e-12) d(Node)/d(area) check complete with 0 total errors (errmax= 1.9751e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "aspect" for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8781e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2321e-10) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "aspect" for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8550e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2323e-10) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.3045e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "taper" for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7223e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4776e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6769e-07) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "taper" for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7037e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 5.4776e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6795e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "twist" for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.9202e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4626e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.8904e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "twist" for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.7947e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4280e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.8086e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "lesweep" for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.6010e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.3909e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "lesweep" for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.7321e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.2963e-16) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dihedral" for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.1139e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2583e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.4501e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dihedral" for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.3296e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.2583e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.4501e-11) ********************************************************* Starting geometric sensitivity wrt "thick_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "thick_r" for ibody=17 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 2.6977e-02) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.3036e-06) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 7.6145e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "thick_r" for ibody=19 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 2.6995e-02) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.3035e-06) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 5.8893e-10) ********************************************************* Starting geometric sensitivity wrt "camber_r" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "camber_r" for ibody=17 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 6.8315e-03) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.3907e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5079e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "camber_r" for ibody=19 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 6.8745e-03) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 1.3907e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 1.5255e-08) ********************************************************* Starting geometric sensitivity wrt "thick_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "thick_t" for ibody=17 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 2.4537e-02) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 3.2996e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 2.8323e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "thick_t" for ibody=19 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 2.4576e-02) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 3.2996e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 2.2957e-10) ********************************************************* Starting geometric sensitivity wrt "camber_t" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "camber_t" for ibody=17 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 4.2305e-03) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 3.3762e-08) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 1.2827e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "camber_t" for ibody=19 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 4.2076e-03) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 3.3762e-08) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 1.2983e-08) ********************************************************* Starting geometric sensitivity wrt "dxwing" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dxwing" for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.1048e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dxwing" for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 3.9271e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 6.3430e-17) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 5.9349e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 11.541 sec Sensitivity checks complete with 32 total errors (max geom err= 2.6995e-02) with 0 suppressions real 1m1.217s user 1m0.353s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 117 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG5.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "area" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(area) check complete with 0 total errors (errmax= 4.4837e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.0562e-13) d(Node)/d(area) check complete with 0 total errors (errmax= 1.7294e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "aspect" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.5878e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.2359e-11) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "taper" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.2659e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4383e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6769e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "twist" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.3698e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.6922e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 2.0198e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "lesweep" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.1242e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.3909e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.5810e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dihedral" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.0748e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 9.2305e-18) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.0574e-10) ********************************************************* Starting geometric sensitivity wrt "tiprad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "tiprad" for ibody=12 Tests suppressed for ibody= 12, iface= 3 Tests suppressed for ibody= 12, iface= 4 Tests suppressed for ibody= 12, iface= 7 Tests suppressed for ibody= 12, iface= 8 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.0700e-10) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 1.1622e-17) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 1.6505e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 12.987 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2659e-06) with 28 suppressions real 0m41.519s user 0m43.199s sys 0m0.328s ++ set +x -------------------------------------------------------------------------------------------------- ( 118 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG6.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "area" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(area) check complete with 0 total errors (errmax= 4.4837e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.0562e-13) d(Node)/d(area) check complete with 0 total errors (errmax= 1.7294e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "area" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(area) check complete with 0 total errors (errmax= 4.5385e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.0643e-13) d(Node)/d(area) check complete with 0 total errors (errmax= 1.9751e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "aspect" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.5878e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.2359e-11) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2532e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "aspect" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.6322e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.2356e-11) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.3045e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "taper" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.2659e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4383e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6769e-07) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "taper" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.2926e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4382e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6795e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "twist" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.3698e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.6922e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 2.0198e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "twist" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.4750e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.1928e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 8.6404e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "lesweep" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 3.1242e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.3909e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.5810e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "lesweep" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.2429e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.2963e-16) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 2.0937e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dihedral" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.0748e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 9.2305e-18) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.0574e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dihedral" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.2171e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 1.6902e-17) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 6.3773e-10) ********************************************************* Starting geometric sensitivity wrt "tiprad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "tiprad" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.0700e-10) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 1.1622e-17) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 1.6505e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "tiprad" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 3.2173e-10) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 1.9951e-17) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 6.6382e-10) ********************************************************* Starting geometric sensitivity wrt "dxwing" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dxwing" for ibody=17 Tests suppressed for ibody= 17, iface= 3 Tests suppressed for ibody= 17, iface= 4 Tests suppressed for ibody= 17, iface= 7 Tests suppressed for ibody= 17, iface= 8 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.0700e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dxwing" for ibody=19 Tests suppressed for ibody= 19, iface= 3 Tests suppressed for ibody= 19, iface= 4 Tests suppressed for ibody= 19, iface= 7 Tests suppressed for ibody= 19, iface= 8 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 3.9153e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 6.3430e-17) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 5.9349e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 26.458 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2926e-06) with 64 suppressions real 2m15.119s user 2m14.953s sys 0m0.372s ++ set +x -------------------------------------------------------------------------------------------------- ( 119 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG7.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "area" for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 4.4396e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.0514e-13) d(Node)/d(area) check complete with 0 total errors (errmax= 1.8111e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "aspect" for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.5532e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.2329e-11) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2478e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "taper" for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.2496e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4369e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6777e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "twist" for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.2413e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.2606e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.7174e-10) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "lesweep" for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.3002e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 5.5916e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 9.2710e-10) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "dihedral" for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 6.0769e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.2348e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 1.8477e-11) ********************************************************* Starting geometric sensitivity wrt "tiprad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "tiprad" for ibody=12 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 6.1017e-10) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 12.010 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2496e-06) with 0 suppressions real 0m39.420s user 0m40.120s sys 0m0.363s ++ set +x -------------------------------------------------------------------------------------------------- ( 120 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG8.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "area" for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 4.4396e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.0514e-13) d(Node)/d(area) check complete with 0 total errors (errmax= 1.8111e-09) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "area" for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 4.5389e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.0453e-13) d(Node)/d(area) check complete with 0 total errors (errmax= 1.9751e-09) ********************************************************* Starting geometric sensitivity wrt "aspect" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "aspect" for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.5532e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.2329e-11) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2478e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "aspect" for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.6331e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.2326e-11) d(Node)/d(aspect) check complete with 0 total errors (errmax= 3.2221e-08) ********************************************************* Starting geometric sensitivity wrt "taper" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "taper" for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.2496e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4369e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6777e-07) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "taper" for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.2885e-06) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4369e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 9.6727e-07) ********************************************************* Starting geometric sensitivity wrt "twist" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "twist" for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.2413e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.2606e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.7174e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "twist" for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.3810e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.5097e-16) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.9481e-11) ********************************************************* Starting geometric sensitivity wrt "lesweep" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "lesweep" for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.3002e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 5.5916e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 9.2710e-10) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "lesweep" for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 8.0236e-10) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 9.1251e-17) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4399e-09) ********************************************************* Starting geometric sensitivity wrt "dihedral" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dihedral" for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 6.0769e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.2348e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 1.8477e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dihedral" for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 7.0374e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 5.2348e-20) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 1.8477e-11) ********************************************************* Starting geometric sensitivity wrt "tiprad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "tiprad" for ibody=17 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 6.1017e-10) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "tiprad" for ibody=19 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 7.0621e-10) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "dxwing" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=17 Computing finite difference sensitivities for ibody=17 Comparing geometric sensitivities wrt "dxwing" for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 3.9900e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing finite difference sensitivities for ibody=19 Comparing geometric sensitivities wrt "dxwing" for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 5.5416e-10) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 7.6117e-17) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 5.9349e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 24.129 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2885e-06) with 0 suppressions real 1m42.974s user 1m44.436s sys 0m0.359s ++ set +x -------------------------------------------------------------------------------------------------- ( 121 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG9.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "rad" for ibody=5 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.2193e-04) d(Edge)/d(rad) check complete with 0 total errors (errmax= 5.7536e-06) d(Node)/d(rad) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "len" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "len" for ibody=5 d(Face)/d(len) check complete with 0 total errors (errmax= 2.8782e-10) d(Edge)/d(len) check complete with 0 total errors (errmax= 1.1791e-17) d(Node)/d(len) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "bump" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "bump" for ibody=5 d(Face)/d(bump) check complete with 0 total errors (errmax= 2.3003e-10) d(Edge)/d(bump) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(bump) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.145 sec Sensitivity checks complete with 2 total errors (max geom err= 1.2193e-04) with 0 suppressions real 0m15.418s user 0m23.683s sys 0m0.366s ++ set +x -------------------------------------------------------------------------------------------------- ( 122 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designGA.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "x1" for ibody=9 d(Face)/d(x1) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 1.1878e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "x2" for ibody=9 d(Face)/d(x2) check complete with 0 total errors (errmax= 4.9595e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 3.4513e-31) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "x3" for ibody=9 d(Face)/d(x3) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x3) check complete with 0 total errors (errmax= 1.8509e-17) d(Node)/d(x3) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "rad" for ibody=9 d(Face)/d(rad) check complete with 0 total errors (errmax= 9.7328e-05) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.2627e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.677 sec Sensitivity checks complete with 0 total errors (max geom err= 9.7328e-05) with 0 suppressions real 0m6.446s user 0m6.050s sys 0m0.361s ++ set +x -------------------------------------------------------------------------------------------------- ( 123 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designGB.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7efc90007f54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x564a367bb144 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff d7 d2 11 c0 2c a4 92 d4 09 a0 10 c0 58 fd 35 08 ed 6e ee 3f cc 85 d5 6f 23 9b ef 3f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f08bc): runtime error: store to misaligned address 0x7efc90007f6c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f6c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ff ff ff ff ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x564a367bb1ac for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 74 0a 4f 9d dd c6 d3 3f f3 ce 5d 64 69 07 6b 3f 00 00 00 00 00 00 00 00 2c a4 92 d4 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7efc90007f54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x564a367bb144 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7efc90007f8c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f8c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x564a367bb144 for type 'struct type', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7efc90007f54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x564a367bb144 for type 'struct type', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7efc90007f54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x564a367bb144 for type 'struct type', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7efc90007f54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x564a367bb144 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7efc90007f8c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f8c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x564a367bb144 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb144: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7efc90007f54 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc90007f54: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x564a367bb204 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb204: note: pointer points here 00 00 00 00 df be 0e c0 78 2b af 99 99 29 0c c0 33 75 2f 08 ed 6e ee 3f 1d b2 d6 6f 23 9b ef 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:17: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:111:24: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:112:24: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:25: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:151:19: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc900083ec for type 'struct value_type', which requires 8 byte alignment 0x7efc900083ec: note: pointer points here 00 00 00 00 c4 01 34 3d 05 12 a7 3f 7d de eb b9 78 05 ea 3f 0d 00 00 00 73 00 69 00 67 90 a3 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:229:16: runtime error: member access within misaligned address 0x564a367bb714 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb714: note: pointer points here 00 00 00 00 bc 73 f2 8e 8e f4 ca 3f da 37 ac 7d c3 da e7 3f 0d 00 00 00 00 00 f0 3f 01 ce ce 50 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc900083ec for type 'struct value_type', which requires 8 byte alignment 0x7efc900083ec: note: pointer points here 00 00 00 00 c4 01 34 3d 05 12 a7 3f 7d de eb b9 78 05 ea 3f 0d 00 00 00 73 00 69 00 67 90 a3 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:234:13: runtime error: member access within misaligned address 0x564a367bb714 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb714: note: pointer points here 00 00 00 00 bc 73 f2 8e 8e f4 ca 3f da 37 ac 7d c3 da e7 3f 0d 00 00 00 00 00 f0 3f 01 ce ce 50 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc900083ec for type 'struct value_type', which requires 8 byte alignment 0x7efc900083ec: note: pointer points here 00 00 00 00 c4 01 34 3d 05 12 a7 3f 7d de eb b9 78 05 ea 3f 0d 00 00 00 73 00 69 00 67 90 a3 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:235:13: runtime error: member access within misaligned address 0x564a367bb714 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb714: note: pointer points here 00 00 00 00 bc 73 f2 8e 8e f4 ca 3f da 37 ac 7d c3 da e7 3f 0d 00 00 00 00 00 f0 3f 01 ce ce 50 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:288:22: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:297:8: runtime error: member access within misaligned address 0x564a367bb1ac for type 'struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:298:8: runtime error: member access within misaligned address 0x564a367bb1ac for type 'struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:290:22: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'const struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:482:15: runtime error: member access within misaligned address 0x564a367bb194 for type 'const struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'const struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:486:13: runtime error: member access within misaligned address 0x564a367bb194 for type 'const struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'const struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:487:13: runtime error: member access within misaligned address 0x564a367bb194 for type 'const struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x564a367bbc0c for type 'struct value_type', which requires 8 byte alignment 0x564a367bbc0c: note: pointer points here 00 00 f0 3f ba b0 e1 0b ac e9 ef 3f 92 74 c8 ab f1 95 e9 3f 0d 00 00 00 00 00 f0 3f dd c6 d3 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:28: runtime error: member access within misaligned address 0x7efc90008464 for type 'struct value_type', which requires 8 byte alignment 0x7efc90008464: note: pointer points here 73 00 69 00 e3 bf 2c ac df 8e ee 3f 7e de eb b9 78 05 ea 3f 0d 00 00 00 73 00 69 00 39 46 d3 b6 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x564a367bbc0c for type 'struct value_type', which requires 8 byte alignment 0x564a367bbc0c: note: pointer points here 00 00 f0 3f ba b0 e1 0b ac e9 ef 3f 92 74 c8 ab f1 95 e9 3f 0d 00 00 00 00 00 f0 3f dd c6 d3 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:259:18: runtime error: member access within misaligned address 0x7efc90008464 for type 'struct value_type', which requires 8 byte alignment 0x7efc90008464: note: pointer points here 73 00 69 00 e3 bf 2c ac df 8e ee 3f 7e de eb b9 78 05 ea 3f 0d 00 00 00 73 00 69 00 39 46 d3 b6 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:354:21: runtime error: member access within misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:355:21: runtime error: member access within misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:308:46: runtime error: member access within misaligned address 0x564a367bb1ac for type 'struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'const struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:33: runtime error: member access within misaligned address 0x564a367bb1ac for type 'const struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1064:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'const struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_6.gxx:29:19: runtime error: member access within misaligned address 0x564a367bb1ac for type 'const struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:332:29: runtime error: member access within misaligned address 0x564a367bb1ac for type 'struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f 0c 00 00 00 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:391:19: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:399:24: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fbc for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fbc: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:108:40: runtime error: member access within misaligned address 0x564a367bb1ac for type 'struct value_type', which requires 8 byte alignment 0x564a367bb1ac: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 09 a0 10 c0 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:402:22: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc900083ec for type 'struct value_type', which requires 8 byte alignment 0x7efc900083ec: note: pointer points here 00 00 00 00 c4 01 34 3d 05 12 a7 3f 7d de eb b9 78 05 ea 3f f3 ff ff ff 73 00 69 00 67 90 a3 54 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x564a367bb714 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb714: note: pointer points here 00 00 00 00 bc 73 f2 8e 8e f4 ca 3f da 37 ac 7d c3 da e7 3f f3 ff ff ff 00 00 f0 3f 01 ce ce 50 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90007fa4 for type 'struct value_type', which requires 8 byte alignment 0x7efc90007fa4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 73 00 69 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_1.gxx:282:16: runtime error: member access within misaligned address 0x564a367bb194 for type 'struct value_type', which requires 8 byte alignment 0x564a367bb194: note: pointer points here 00 00 00 00 00 00 00 00 00 00 f0 3f 9a ef 0a a5 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7efc900083d4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc900083d4: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 c4 01 34 3d ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x564a367bb17c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x564a367bb17c: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 00 00 00 00 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x1" for ibody=12 d(Face)/d(x1) check complete with 0 total errors (errmax= 1.4399e-10) d(Edge)/d(x1) check complete with 0 total errors (errmax= 3.9638e-16) d(Node)/d(x1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90078abc for type 'struct value_type', which requires 8 byte alignment 0x7efc90078abc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 e2 ba 94 91 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f a7 91 ea 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:27: runtime error: member access within misaligned address 0x7efc90078abc for type 'struct value_type', which requires 8 byte alignment 0x7efc90078abc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 e2 ba 94 91 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f a7 91 ea 3f ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc90078abc for type 'struct value_type', which requires 8 byte alignment 0x7efc90078abc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 e2 ba 94 91 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f a7 91 ea 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_3.gxx:117:21: runtime error: member access within misaligned address 0x7efc90078abc for type 'struct value_type', which requires 8 byte alignment 0x7efc90078abc: note: pointer points here 00 00 f0 3f 00 00 00 00 00 00 00 00 e2 ba 94 91 4c 9c e9 3f f4 ff ff ff 00 00 f0 3f a7 91 ea 3f ^ Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x2" for ibody=12 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.3934e-10) d(Edge)/d(x2) check complete with 0 total errors (errmax= 2.3242e-15) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x3" for ibody=12 d(Face)/d(x3) check complete with 0 total errors (errmax= 1.5315e-10) d(Edge)/d(x3) check complete with 0 total errors (errmax= 3.3075e-16) d(Node)/d(x3) check complete with 0 total errors (errmax= 2.5640e-10) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "rad" for ibody=12 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.0406e-04) d(Edge)/d(rad) check complete with 0 total errors (errmax= 5.3331e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.598 sec Sensitivity checks complete with 2 total errors (max geom err= 1.0406e-04) with 0 suppressions real 0m8.147s user 0m10.071s sys 0m14.240s ++ set +x -------------------------------------------------------------------------------------------------- ( 124 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "X" for ibody=3 d(Face)/d(X) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(X) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(X) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Y" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "Y" for ibody=3 d(Face)/d(Y) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(Y) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(Y) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Z" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "Z" for ibody=3 d(Face)/d(Z) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(Z) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(Z) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.058 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m0.812s user 0m0.696s sys 0m0.317s ++ set +x -------------------------------------------------------------------------------------------------- ( 125 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "X" for ibody=3 d(Face)/d(X) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(X) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(X) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Y" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "Y" for ibody=3 d(Face)/d(Y) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(Y) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(Y) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Z" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "Z" for ibody=3 d(Face)/d(Z) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(Z) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(Z) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.039 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m0.971s user 0m0.799s sys 0m0.279s ++ set +x -------------------------------------------------------------------------------------------------- ( 126 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "Y" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "Y" for ibody=4 Tests suppressed for ibody= 4, iface= 3 Tests suppressed for ibody= 4, iface= 6 Tests suppressed for ibody= 4, iface= 9 d(Face)/d(Y) check complete with 0 total errors (errmax= 8.0701e-11) Tests suppressed for ibody= 4, iedge= 2 Tests suppressed for ibody= 4, iedge= 5 Tests suppressed for ibody= 4, iedge= 8 Tests suppressed for ibody= 4, iedge= 9 Tests suppressed for ibody= 4, iedge= 10 Tests suppressed for ibody= 4, iedge= 11 Tests suppressed for ibody= 4, iedge= 15 Tests suppressed for ibody= 4, iedge= 16 Tests suppressed for ibody= 4, iedge= 21 Tests suppressed for ibody= 4, iedge= 22 d(Edge)/d(Y) check complete with 0 total errors (errmax= 6.0567e-19) Tests suppressed for ibody= 4, inode= 2 Tests suppressed for ibody= 4, inode= 3 Tests suppressed for ibody= 4, inode= 5 Tests suppressed for ibody= 4, inode= 7 Tests suppressed for ibody= 4, inode= 8 Tests suppressed for ibody= 4, inode= 9 Tests suppressed for ibody= 4, inode= 11 Tests suppressed for ibody= 4, inode= 14 d(Node)/d(Y) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 21 suppressions real 0m0.738s user 0m0.638s sys 0m0.309s ++ set +x -------------------------------------------------------------------------------------------------- ( 127 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "Y" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "Y" for ibody=4 Tests suppressed for ibody= 4, iface= 1 Tests suppressed for ibody= 4, iface= 6 d(Face)/d(Y) check complete with 0 total errors (errmax= 8.0701e-11) Tests suppressed for ibody= 4, iedge= 5 Tests suppressed for ibody= 4, iedge= 6 Tests suppressed for ibody= 4, iedge= 7 Tests suppressed for ibody= 4, iedge= 8 d(Edge)/d(Y) check complete with 0 total errors (errmax= 6.0567e-19) Tests suppressed for ibody= 4, inode= 5 Tests suppressed for ibody= 4, inode= 6 Tests suppressed for ibody= 4, inode= 7 Tests suppressed for ibody= 4, inode= 8 d(Node)/d(Y) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "Z" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "Z" for ibody=4 Tests suppressed for ibody= 4, iface= 1 Tests suppressed for ibody= 4, iface= 6 d(Face)/d(Z) check complete with 0 total errors (errmax= 8.0701e-11) Tests suppressed for ibody= 4, iedge= 5 Tests suppressed for ibody= 4, iedge= 6 Tests suppressed for ibody= 4, iedge= 7 Tests suppressed for ibody= 4, iedge= 8 d(Edge)/d(Z) check complete with 0 total errors (errmax= 6.0567e-19) Tests suppressed for ibody= 4, inode= 5 Tests suppressed for ibody= 4, inode= 6 Tests suppressed for ibody= 4, inode= 7 Tests suppressed for ibody= 4, inode= 8 d(Node)/d(Z) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.026 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 20 suppressions real 0m0.944s user 0m0.947s sys 0m0.302s ++ set +x -------------------------------------------------------------------------------------------------- ( 128 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "XSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "XSIZE" for ibody=4 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 1.0828e-10) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 1.0903e-18) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 1.0828e-10) ********************************************************* Starting geometric sensitivity wrt "YSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "YSIZE" for ibody=4 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "ZSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ZSIZE" for ibody=4 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DX" for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.0404e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) ********************************************************* Starting geometric sensitivity wrt "RAD" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "RAD" for ibody=4 d(Face)/d(RAD) check complete with 0 total errors (errmax= 8.9816e-12) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 2.8715e-21) d(Node)/d(RAD) check complete with 0 total errors (errmax= 3.8978e-12) ********************************************************* Starting geometric sensitivity wrt "ROUND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ROUND" for ibody=4 d(Face)/d(ROUND) check complete with 0 total errors (errmax= 3.9104e-12) d(Edge)/d(ROUND) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(ROUND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "SCALE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "SCALE" for ibody=4 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.8673e-10) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.2085e-17) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 4.8789e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.061 sec Sensitivity checks complete with 0 total errors (max geom err= 4.8789e-10) with 0 suppressions real 0m1.211s user 0m1.327s sys 0m0.314s ++ set +x -------------------------------------------------------------------------------------------------- ( 129 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "XSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "XSIZE" for ibody=4 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 7.4060e-11) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 4.3394e-18) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 3.1053e-10) ********************************************************* Starting geometric sensitivity wrt "YSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "YSIZE" for ibody=4 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "ZSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ZSIZE" for ibody=4 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DX" for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 3.5002e-12) d(Edge)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "RAD" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "RAD" for ibody=4 d(Face)/d(RAD) check complete with 0 total errors (errmax= 8.8451e-12) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 2.8715e-21) d(Node)/d(RAD) check complete with 0 total errors (errmax= 3.8978e-12) ********************************************************* Starting geometric sensitivity wrt "ROUND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ROUND" for ibody=4 d(Face)/d(ROUND) check complete with 0 total errors (errmax= 3.5002e-12) d(Edge)/d(ROUND) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(ROUND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "SCALE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "SCALE" for ibody=4 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.6225e-19) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 5.8171e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.075 sec Sensitivity checks complete with 0 total errors (max geom err= 3.1053e-10) with 0 suppressions real 0m1.332s user 0m1.447s sys 0m0.313s ++ set +x -------------------------------------------------------------------------------------------------- ( 130 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "XSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "XSIZE" for ibody=5 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 1.0827e-10) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 1.0903e-18) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 1.0827e-10) ********************************************************* Starting geometric sensitivity wrt "YSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "YSIZE" for ibody=5 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "ZSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "ZSIZE" for ibody=5 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DX" for ibody=5 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.0404e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) ********************************************************* Starting geometric sensitivity wrt "RAD" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "RAD" for ibody=5 d(Face)/d(RAD) check complete with 0 total errors (errmax= 8.9869e-12) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 2.8715e-21) d(Node)/d(RAD) check complete with 0 total errors (errmax= 3.8978e-12) ********************************************************* Starting geometric sensitivity wrt "SCALE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "SCALE" for ibody=5 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.8673e-10) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.2085e-17) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 4.8789e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.066 sec Sensitivity checks complete with 0 total errors (max geom err= 4.8789e-10) with 0 suppressions real 0m1.381s user 0m1.565s sys 0m0.333s ++ set +x -------------------------------------------------------------------------------------------------- ( 131 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "XSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "XSIZE" for ibody=4 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 1.0828e-10) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 1.0903e-18) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 1.0828e-10) Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "XSIZE" for ibody=8 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 7.4060e-11) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 4.3394e-18) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 3.1053e-10) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "XSIZE" for ibody=13 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 1.0827e-10) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 1.0903e-18) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 1.0827e-10) ********************************************************* Starting geometric sensitivity wrt "YSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "YSIZE" for ibody=4 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "YSIZE" for ibody=8 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "YSIZE" for ibody=13 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "ZSIZE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "ZSIZE" for ibody=4 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "ZSIZE" for ibody=8 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "ZSIZE" for ibody=13 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 5.5393e-19) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 5.4137e-11) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DX" for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.0404e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "DX" for ibody=8 d(Face)/d(DX) check complete with 0 total errors (errmax= 3.5002e-12) d(Edge)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "DX" for ibody=13 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.0404e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.4812e-10) ********************************************************* Starting geometric sensitivity wrt "RAD" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "RAD" for ibody=4 d(Face)/d(RAD) check complete with 0 total errors (errmax= 8.9816e-12) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 2.8715e-21) d(Node)/d(RAD) check complete with 0 total errors (errmax= 3.8978e-12) Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "RAD" for ibody=8 d(Face)/d(RAD) check complete with 0 total errors (errmax= 8.8451e-12) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 2.8715e-21) d(Node)/d(RAD) check complete with 0 total errors (errmax= 3.8978e-12) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "RAD" for ibody=13 d(Face)/d(RAD) check complete with 0 total errors (errmax= 8.9869e-12) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 2.8715e-21) d(Node)/d(RAD) check complete with 0 total errors (errmax= 3.8978e-12) ********************************************************* Starting geometric sensitivity wrt "SCALE" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "SCALE" for ibody=4 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.8673e-10) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.2085e-17) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 4.8789e-10) Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "SCALE" for ibody=8 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.6225e-19) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 5.8171e-11) Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 Comparing geometric sensitivities wrt "SCALE" for ibody=13 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.8673e-10) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.2085e-17) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 4.8789e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.206 sec Sensitivity checks complete with 0 total errors (max geom err= 4.8789e-10) with 0 suppressions real 0m5.893s user 0m7.855s sys 0m0.753s ++ set +x -------------------------------------------------------------------------------------------------- ( 132 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DX" for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(DX) check complete with 0 total errors (errmax= 8.1894e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DY" for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DZ" for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.013 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.556s user 0m0.342s sys 0m0.271s ++ set +x -------------------------------------------------------------------------------------------------- ( 133 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DX" for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 6.7672e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 4.2589e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 6.7672e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DY" for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DZ" for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.014 sec Sensitivity checks complete with 0 total errors (max geom err= 6.7672e-11) with 0 suppressions real 0m0.580s user 0m0.405s sys 0m0.242s ++ set +x -------------------------------------------------------------------------------------------------- ( 134 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DX" for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX) check complete with 0 total errors (errmax= 8.1894e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DY" for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DZ" for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.006 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m0.536s user 0m0.259s sys 0m0.278s ++ set +x -------------------------------------------------------------------------------------------------- ( 135 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DX" for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.1409e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 5.8692e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 2.5122e-10) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DY" for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.1639e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.1265e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DZ" for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 3.1120e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5122e-10) with 0 suppressions real 0m0.494s user 0m0.187s sys 0m0.306s ++ set +x -------------------------------------------------------------------------------------------------- ( 136 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ2a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DX" for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.9283e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DY" for ibody=4 d(Face)/d(DY) check complete with 0 total errors (errmax= 5.6029e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.2460e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DZ" for ibody=4 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.8924e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.3444e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.508 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.587s user 0m1.564s sys 0m0.265s ++ set +x -------------------------------------------------------------------------------------------------- ( 137 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ2b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DX" for ibody=5 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 7.3207e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DY" for ibody=5 d(Face)/d(DY) check complete with 0 total errors (errmax= 5.6029e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.2460e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DZ" for ibody=5 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.8924e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.3444e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.535 sec Sensitivity checks complete with 0 total errors (max geom err= 5.6029e-11) with 0 suppressions real 0m1.710s user 0m1.616s sys 0m0.337s ++ set +x -------------------------------------------------------------------------------------------------- ( 138 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ3a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DX" for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.9283e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DY" for ibody=4 d(Face)/d(DY) check complete with 0 total errors (errmax= 5.6029e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.2460e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "DZ" for ibody=4 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.8924e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.3444e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.558 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.606s user 0m1.548s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 139 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ3b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DX" for ibody=5 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 7.3207e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DY" for ibody=5 d(Face)/d(DY) check complete with 0 total errors (errmax= 5.6029e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.2460e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "DZ" for ibody=5 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.8924e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.3444e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.733 sec Sensitivity checks complete with 0 total errors (max geom err= 5.6029e-11) with 0 suppressions real 0m1.818s user 0m1.832s sys 0m0.291s ++ set +x -------------------------------------------------------------------------------------------------- ( 140 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ4a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "XBEG" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "XBEG" for ibody=6 d(Face)/d(XBEG) check complete with 0 total errors (errmax= 4.1756e-11) d(Edge)/d(XBEG) check complete with 0 total errors (errmax= 1.8126e-20) d(Node)/d(XBEG) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "YBEG" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "YBEG" for ibody=6 d(Face)/d(YBEG) check complete with 0 total errors (errmax= 4.1756e-11) d(Edge)/d(YBEG) check complete with 0 total errors (errmax= 2.3483e-20) d(Node)/d(YBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "ZBEG" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ZBEG" for ibody=6 d(Face)/d(ZBEG) check complete with 0 total errors (errmax= 4.1756e-11) d(Edge)/d(ZBEG) check complete with 0 total errors (errmax= 7.1310e-21) d(Node)/d(ZBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "XEND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "XEND" for ibody=6 d(Face)/d(XEND) check complete with 0 total errors (errmax= 1.5465e-10) d(Edge)/d(XEND) check complete with 0 total errors (errmax= 7.8001e-19) d(Node)/d(XEND) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "YEND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "YEND" for ibody=6 d(Face)/d(YEND) check complete with 0 total errors (errmax= 5.3363e-11) d(Edge)/d(YEND) check complete with 0 total errors (errmax= 2.4846e-20) d(Node)/d(YEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "ZEND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ZEND" for ibody=6 d(Face)/d(ZEND) check complete with 0 total errors (errmax= 4.1756e-11) d(Edge)/d(ZEND) check complete with 0 total errors (errmax= 1.2395e-20) d(Node)/d(ZEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DX" for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.4008e-10) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.0089e-18) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DY" for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 5.8413e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 2.3176e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DZ" for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.1756e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 5.5643e-20) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.498 sec Sensitivity checks complete with 0 total errors (max geom err= 1.5465e-10) with 0 suppressions real 0m3.358s user 0m3.235s sys 0m0.312s ++ set +x -------------------------------------------------------------------------------------------------- ( 141 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ4b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "XBEG" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "XBEG" for ibody=6 d(Face)/d(XBEG) check complete with 0 total errors (errmax= 4.7314e-08) d(Edge)/d(XBEG) check complete with 0 total errors (errmax= 5.4351e-13) d(Node)/d(XBEG) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "YBEG" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "YBEG" for ibody=6 d(Face)/d(YBEG) check complete with 0 total errors (errmax= 1.4618e-08) d(Edge)/d(YBEG) check complete with 0 total errors (errmax= 3.3297e-14) d(Node)/d(YBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "ZBEG" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ZBEG" for ibody=6 d(Face)/d(ZBEG) check complete with 0 total errors (errmax= 2.2179e-08) d(Edge)/d(ZBEG) check complete with 0 total errors (errmax= 7.7016e-14) d(Node)/d(ZBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "XEND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "XEND" for ibody=6 d(Face)/d(XEND) check complete with 0 total errors (errmax= 4.7614e-08) d(Edge)/d(XEND) check complete with 0 total errors (errmax= 5.4744e-13) d(Node)/d(XEND) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "YEND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "YEND" for ibody=6 d(Face)/d(YEND) check complete with 0 total errors (errmax= 1.4783e-08) d(Edge)/d(YEND) check complete with 0 total errors (errmax= 3.4417e-14) d(Node)/d(YEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "ZEND" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "ZEND" for ibody=6 d(Face)/d(ZEND) check complete with 0 total errors (errmax= 2.2296e-08) d(Edge)/d(ZEND) check complete with 0 total errors (errmax= 7.7884e-14) d(Node)/d(ZEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DX" for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 6.9908e-08) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1224e-12) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DY" for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.8318e-08) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.9347e-14) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DZ" for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.6036e-08) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.9096e-14) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.676 sec Sensitivity checks complete with 0 total errors (max geom err= 6.9908e-08) with 0 suppressions real 0m7.333s user 0m8.204s sys 0m0.296s ++ set +x -------------------------------------------------------------------------------------------------- ( 142 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ5.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "DX" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DX" for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DX" for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "DX" for ibody=9 d(Face)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "DX" for ibody=12 d(Face)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "DX" for ibody=15 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "DX" for ibody=18 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX" for ibody=20 d(Face)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=23 Computing finite difference sensitivities for ibody=23 Comparing geometric sensitivities wrt "DX" for ibody=23 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "DX" for ibody=26 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=28 Computing finite difference sensitivities for ibody=28 Comparing geometric sensitivities wrt "DX" for ibody=28 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DX) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "DY" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DY" for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DY" for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "DY" for ibody=9 d(Face)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "DY" for ibody=12 d(Face)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "DY" for ibody=15 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "DY" for ibody=18 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY" for ibody=20 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(DY) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=23 Computing finite difference sensitivities for ibody=23 Comparing geometric sensitivities wrt "DY" for ibody=23 d(Face)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "DY" for ibody=26 d(Face)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) Computing analytic sensitivities (if possible) for ibody=28 Computing finite difference sensitivities for ibody=28 Comparing geometric sensitivities wrt "DY" for ibody=28 d(Face)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "DZ" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "DZ" for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "DZ" for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "DZ" for ibody=9 d(Face)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "DZ" for ibody=12 d(Face)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "DZ" for ibody=15 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "DZ" for ibody=18 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ" for ibody=20 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 2.3748e-11) Computing analytic sensitivities (if possible) for ibody=23 Computing finite difference sensitivities for ibody=23 Comparing geometric sensitivities wrt "DZ" for ibody=23 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) Computing analytic sensitivities (if possible) for ibody=26 Computing finite difference sensitivities for ibody=26 Comparing geometric sensitivities wrt "DZ" for ibody=26 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) Computing analytic sensitivities (if possible) for ibody=28 Computing finite difference sensitivities for ibody=28 Comparing geometric sensitivities wrt "DZ" for ibody=28 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.090 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m5.562s user 0m5.552s sys 0m0.345s ++ set +x -------------------------------------------------------------------------------------------------- ( 143 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designK0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L0" for ibody=11 d(Face)/d(L0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(L0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(L0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H0" for ibody=11 d(Face)/d(H0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H0) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(H0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D0" for ibody=11 d(Face)/d(D0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X0" for ibody=11 d(Face)/d(X0) check complete with 0 total errors (errmax= 7.3758e-11) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.3891e-18) d(Node)/d(X0) check complete with 0 total errors (errmax= 1.7569e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y0" for ibody=11 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.2600e-07) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 4.2400e-12) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.0696e-07) ********************************************************* Starting geometric sensitivity wrt "R0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R0" for ibody=11 d(Face)/d(R0) check complete with 0 total errors (errmax= 5.0706e-09) d(Edge)/d(R0) check complete with 0 total errors (errmax= 6.8185e-15) d(Node)/d(R0) check complete with 0 total errors (errmax= 1.2309e-08) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X1" for ibody=11 d(Face)/d(X1) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.0738e-20) d(Node)/d(X1) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "Y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y1" for ibody=11 d(Face)/d(Y1) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(Y1) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(Y1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "W1" for ibody=11 d(Face)/d(W1) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(W1) check complete with 0 total errors (errmax= 2.6845e-21) d(Node)/d(W1) check complete with 0 total errors (errmax= 7.7238e-12) ********************************************************* Starting geometric sensitivity wrt "H1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H1" for ibody=11 d(Face)/d(H1) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(H1) check complete with 0 total errors (errmax= 7.3267e-20) d(Node)/d(H1) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X2" for ibody=11 d(Face)/d(X2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(X2) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(X2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y2" for ibody=11 d(Face)/d(Y2) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(Y2) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(Y2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "W2" for ibody=11 d(Face)/d(W2) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(W2) check complete with 0 total errors (errmax= 2.5380e-20) d(Node)/d(W2) check complete with 0 total errors (errmax= 2.3748e-11) ********************************************************* Starting geometric sensitivity wrt "H2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H2" for ibody=11 d(Face)/d(H2) check complete with 0 total errors (errmax= 2.4612e-11) d(Edge)/d(H2) check complete with 0 total errors (errmax= 7.3267e-20) d(Node)/d(H2) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "R3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R3" for ibody=11 d(Face)/d(R3) check complete with 0 total errors (errmax= 4.6303e-11) d(Edge)/d(R3) check complete with 0 total errors (errmax= 2.0981e-19) d(Node)/d(R3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "X4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X4" for ibody=11 d(Face)/d(X4) check complete with 0 total errors (errmax= 6.1498e-11) d(Edge)/d(X4) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(X4) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "Y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y4" for ibody=11 d(Face)/d(Y4) check complete with 0 total errors (errmax= 4.3292e-11) d(Edge)/d(Y4) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(Y4) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "R4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R4" for ibody=11 d(Face)/d(R4) check complete with 0 total errors (errmax= 1.0600e-10) d(Edge)/d(R4) check complete with 0 total errors (errmax= 6.4854e-19) d(Node)/d(R4) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.108 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0696e-07) with 0 suppressions real 0m12.880s user 0m17.769s sys 0m0.496s ++ set +x -------------------------------------------------------------------------------------------------- ( 144 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designK1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L0" for ibody=11 d(Face)/d(L0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(L0) check complete with 0 total errors (errmax= 1.2309e-18) d(Node)/d(L0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H0" for ibody=11 d(Face)/d(H0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H0) check complete with 0 total errors (errmax= 2.4813e-18) d(Node)/d(H0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D0" for ibody=11 d(Face)/d(D0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D0) check complete with 0 total errors (errmax= 8.5951e-19) d(Node)/d(D0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X0" for ibody=11 d(Face)/d(X0) check complete with 0 total errors (errmax= 6.4630e-11) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.3891e-18) d(Node)/d(X0) check complete with 0 total errors (errmax= 1.7569e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y0" for ibody=11 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.0932e-07) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 4.2400e-12) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.0696e-07) ********************************************************* Starting geometric sensitivity wrt "R0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R0" for ibody=11 d(Face)/d(R0) check complete with 0 total errors (errmax= 4.4069e-09) d(Edge)/d(R0) check complete with 0 total errors (errmax= 6.8185e-15) d(Node)/d(R0) check complete with 0 total errors (errmax= 1.2309e-08) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X1" for ibody=11 d(Face)/d(X1) check complete with 0 total errors (errmax= 2.6560e-11) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.0738e-20) d(Node)/d(X1) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "Y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y1" for ibody=11 d(Face)/d(Y1) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(Y1) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(Y1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "W1" for ibody=11 d(Face)/d(W1) check complete with 0 total errors (errmax= 2.6560e-11) d(Edge)/d(W1) check complete with 0 total errors (errmax= 2.6845e-21) d(Node)/d(W1) check complete with 0 total errors (errmax= 7.7238e-12) ********************************************************* Starting geometric sensitivity wrt "H1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H1" for ibody=11 d(Face)/d(H1) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H1) check complete with 0 total errors (errmax= 7.3267e-20) d(Node)/d(H1) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X2" for ibody=11 d(Face)/d(X2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(X2) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(X2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y2" for ibody=11 d(Face)/d(Y2) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(Y2) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(Y2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "W2" for ibody=11 d(Face)/d(W2) check complete with 0 total errors (errmax= 2.6560e-11) d(Edge)/d(W2) check complete with 0 total errors (errmax= 2.5380e-20) d(Node)/d(W2) check complete with 0 total errors (errmax= 2.3748e-11) ********************************************************* Starting geometric sensitivity wrt "H2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H2" for ibody=11 d(Face)/d(H2) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H2) check complete with 0 total errors (errmax= 7.3267e-20) d(Node)/d(H2) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "R3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R3" for ibody=11 d(Face)/d(R3) check complete with 0 total errors (errmax= 4.6303e-11) d(Edge)/d(R3) check complete with 0 total errors (errmax= 2.0981e-19) d(Node)/d(R3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "X4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X4" for ibody=11 d(Face)/d(X4) check complete with 0 total errors (errmax= 6.1498e-11) d(Edge)/d(X4) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(X4) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "Y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y4" for ibody=11 d(Face)/d(Y4) check complete with 0 total errors (errmax= 4.3292e-11) d(Edge)/d(Y4) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(Y4) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "R4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R4" for ibody=11 d(Face)/d(R4) check complete with 0 total errors (errmax= 1.0600e-10) d(Edge)/d(R4) check complete with 0 total errors (errmax= 6.4854e-19) d(Node)/d(R4) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.256 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0696e-07) with 0 suppressions real 0m16.880s user 0m21.904s sys 0m0.749s ++ set +x -------------------------------------------------------------------------------------------------- ( 145 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designK2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L0" for ibody=11 d(Face)/d(L0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(L0) check complete with 0 total errors (errmax= 2.4813e-18) d(Node)/d(L0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H0" for ibody=11 d(Face)/d(H0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H0) check complete with 0 total errors (errmax= 4.9822e-18) d(Node)/d(H0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D0" for ibody=11 d(Face)/d(D0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D0) check complete with 0 total errors (errmax= 1.8278e-18) d(Node)/d(D0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X0" for ibody=11 d(Face)/d(X0) check complete with 0 total errors (errmax= 6.9854e-11) d(Edge)/d(X0) check complete with 0 total errors (errmax= 3.9286e-18) d(Node)/d(X0) check complete with 0 total errors (errmax= 1.7569e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y0" for ibody=11 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.2769e-07) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.3621e-11) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.0696e-07) ********************************************************* Starting geometric sensitivity wrt "R0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R0" for ibody=11 d(Face)/d(R0) check complete with 0 total errors (errmax= 5.1441e-09) d(Edge)/d(R0) check complete with 0 total errors (errmax= 2.2097e-14) d(Node)/d(R0) check complete with 0 total errors (errmax= 1.2309e-08) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X1" for ibody=11 d(Face)/d(X1) check complete with 0 total errors (errmax= 2.2365e-11) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.0198e-19) d(Node)/d(X1) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "Y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y1" for ibody=11 d(Face)/d(Y1) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(Y1) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(Y1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "W1" for ibody=11 d(Face)/d(W1) check complete with 0 total errors (errmax= 2.2365e-11) d(Edge)/d(W1) check complete with 0 total errors (errmax= 1.0198e-19) d(Node)/d(W1) check complete with 0 total errors (errmax= 7.7238e-12) ********************************************************* Starting geometric sensitivity wrt "H1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H1" for ibody=11 d(Face)/d(H1) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H1) check complete with 0 total errors (errmax= 1.0198e-19) d(Node)/d(H1) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X2" for ibody=11 d(Face)/d(X2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(X2) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(X2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "Y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y2" for ibody=11 d(Face)/d(Y2) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(Y2) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(Y2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "W2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "W2" for ibody=11 d(Face)/d(W2) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(W2) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(W2) check complete with 0 total errors (errmax= 2.3748e-11) ********************************************************* Starting geometric sensitivity wrt "H2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H2" for ibody=11 d(Face)/d(H2) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H2) check complete with 0 total errors (errmax= 1.0198e-19) d(Node)/d(H2) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "R3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R3" for ibody=11 d(Face)/d(R3) check complete with 0 total errors (errmax= 4.6303e-11) d(Edge)/d(R3) check complete with 0 total errors (errmax= 2.0981e-19) d(Node)/d(R3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "X4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "X4" for ibody=11 d(Face)/d(X4) check complete with 0 total errors (errmax= 5.3458e-11) d(Edge)/d(X4) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(X4) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "Y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "Y4" for ibody=11 d(Face)/d(Y4) check complete with 0 total errors (errmax= 5.4576e-11) d(Edge)/d(Y4) check complete with 0 total errors (errmax= 1.0828e-19) d(Node)/d(Y4) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "R4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "R4" for ibody=11 d(Face)/d(R4) check complete with 0 total errors (errmax= 7.5023e-11) d(Edge)/d(R4) check complete with 0 total errors (errmax= 1.0411e-18) d(Node)/d(R4) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.517 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0696e-07) with 0 suppressions real 1m49.232s user 1m45.078s sys 0m0.711s ++ set +x -------------------------------------------------------------------------------------------------- ( 146 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL00.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "xbeg" for ibody=5 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "ybeg" for ibody=5 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "zbeg" for ibody=5 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.3848e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "xsize" for ibody=5 d(Face)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "ysize" for ibody=5 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.8421e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 4.4312e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "zsize" for ibody=5 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.1078e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "diam" for ibody=5 d(Face)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "scale" for ibody=5 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.2391e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.4960e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.097 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4032e-09) with 0 suppressions real 0m2.016s user 0m2.193s sys 0m0.386s ++ set +x -------------------------------------------------------------------------------------------------- ( 147 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL01.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xbeg" for ibody=7 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ybeg" for ibody=7 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zbeg" for ibody=7 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.3848e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xsize" for ibody=7 d(Face)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ysize" for ibody=7 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.8421e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 4.4312e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zsize" for ibody=7 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.1078e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "diam" for ibody=7 d(Face)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "scale" for ibody=7 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.2391e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.4960e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.076 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4032e-09) with 0 suppressions real 0m1.802s user 0m2.097s sys 0m0.338s ++ set +x -------------------------------------------------------------------------------------------------- ( 148 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL10.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xbeg" for ibody=7 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ybeg" for ibody=7 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zbeg" for ibody=7 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.3848e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xsize" for ibody=7 d(Face)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ysize" for ibody=7 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.8421e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 4.4312e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zsize" for ibody=7 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.1078e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "diam" for ibody=7 d(Face)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "scale" for ibody=7 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.2391e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.6015e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.136 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4032e-09) with 0 suppressions real 0m2.495s user 0m2.471s sys 0m0.331s ++ set +x -------------------------------------------------------------------------------------------------- ( 149 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL11.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbeg" for ibody=10 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybeg" for ibody=10 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 8.0285e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbeg" for ibody=10 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.4271e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xsize" for ibody=10 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ysize" for ibody=10 d(Face)/d(ysize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 7.0435e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zsize" for ibody=10 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.4233e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "diam" for ibody=10 d(Face)/d(diam) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "scale" for ibody=10 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.5735e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.0640e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.848 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5735e-09) with 0 suppressions real 0m5.925s user 0m4.491s sys 0m0.309s ++ set +x -------------------------------------------------------------------------------------------------- ( 150 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL12.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xbeg" for ibody=10 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ybeg" for ibody=10 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 8.0285e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zbeg" for ibody=10 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.4271e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xsize" for ibody=10 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "ysize" for ibody=10 d(Face)/d(ysize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 7.0435e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zsize" for ibody=10 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.4233e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "diam" for ibody=10 d(Face)/d(diam) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "scale" for ibody=10 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.5735e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.0640e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.655 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5735e-09) with 0 suppressions real 0m3.540s user 0m4.258s sys 0m0.361s ++ set +x -------------------------------------------------------------------------------------------------- ( 151 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL20.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xbeg" for ibody=12 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ybeg" for ibody=12 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zbeg" for ibody=12 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.3848e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xsize" for ibody=12 d(Face)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "ysize" for ibody=12 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.8421e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 4.4312e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zsize" for ibody=12 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.1078e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "diam" for ibody=12 d(Face)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "scale" for ibody=12 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.2391e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.6015e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.096 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4032e-09) with 0 suppressions real 0m1.582s user 0m2.020s sys 0m0.275s ++ set +x -------------------------------------------------------------------------------------------------- ( 152 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL21.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "xbeg" for ibody=15 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "ybeg" for ibody=15 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 8.0285e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "zbeg" for ibody=15 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.4271e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "xsize" for ibody=15 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "ysize" for ibody=15 d(Face)/d(ysize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 7.0435e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "zsize" for ibody=15 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.4233e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "diam" for ibody=15 d(Face)/d(diam) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "scale" for ibody=15 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.5735e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.0640e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.705 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5735e-09) with 0 suppressions real 0m4.056s user 0m4.452s sys 0m0.379s ++ set +x -------------------------------------------------------------------------------------------------- ( 153 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL22.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "xbeg" for ibody=15 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "ybeg" for ibody=15 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 8.0285e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "zbeg" for ibody=15 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.4271e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "xsize" for ibody=15 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "ysize" for ibody=15 d(Face)/d(ysize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 7.0435e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "zsize" for ibody=15 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2363e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.4233e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "diam" for ibody=15 d(Face)/d(diam) check complete with 0 total errors (errmax= 1.8084e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 1.5347e-16) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "scale" for ibody=15 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.5735e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.0640e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.749 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5735e-09) with 0 suppressions real 0m4.357s user 0m4.182s sys 0m0.373s ++ set +x -------------------------------------------------------------------------------------------------- ( 154 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL30.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xbeg" for ibody=8 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "ybeg" for ibody=8 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "zbeg" for ibody=8 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.3848e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xsize" for ibody=8 d(Face)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "ysize" for ibody=8 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.8421e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "zsize" for ibody=8 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.1078e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "diam" for ibody=8 d(Face)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "scale" for ibody=8 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.2391e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.6015e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.131 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4032e-09) with 0 suppressions real 0m2.070s user 0m2.189s sys 0m0.367s ++ set +x -------------------------------------------------------------------------------------------------- ( 155 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL31.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f76f007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76f007f044: note: pointer points here ff ff ff ff dd 0c e8 3f 19 2a 9d e4 1c 25 d5 3f 10 38 ee 00 1e 05 e8 3f 59 06 ec 6f 3d 55 d5 3f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f76e007f4c4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76e007f4c4: note: pointer points here 28 42 03 03 6d ea e7 3f 64 f9 08 90 0b 32 d5 3f 7e 87 25 76 13 e2 e7 3f 72 3f cf 78 93 ab d5 3f ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f76f007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76f007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f76e807f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76e807f434: note: pointer points here ff ff ff ff 37 32 03 c0 00 00 00 00 00 00 f0 bf 72 ac 8b db 68 00 08 40 f2 87 b1 4f 53 cb fc bf ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x5641eee0327c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x5641eee0327c: note: pointer points here 00 00 00 00 1b 00 00 00 1c 00 00 00 1d 00 00 00 1e 00 00 00 1f 00 00 00 20 00 00 00 21 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f76e007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76e007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f76f007f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76f007f284: note: pointer points here 73 00 69 00 5a f7 e7 3f 4e da d9 82 97 67 d5 3f fc 24 b1 ec 81 a0 e7 3f 51 22 75 4e 9d af d2 3f ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f76e007f044 for type 'struct type', which requires 8 byte alignment 0x7f76e007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f76f007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76f007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x5641eee03264 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x5641eee03264: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f76e807f434 for type 'struct type', which requires 8 byte alignment 0x7f76e807f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x5641eee03264 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x5641eee03264: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f76e807f674 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76e807f674: note: pointer points here 76 7f 00 00 37 32 f3 bf 00 00 00 00 00 00 f0 bf c7 29 3a 92 cb ff 13 40 58 28 59 8a 37 32 e3 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f76e007f044 for type 'struct type', which requires 8 byte alignment 0x7f76e007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x5641eee03264 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x5641eee03264: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f76e807f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76e807f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f76f007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76f007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e807f68c for type 'struct value_type', which requires 8 byte alignment 0x7f76e807f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x5641eee034bc for type 'struct value_type', which requires 8 byte alignment 0x5641eee034bc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 77 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e807f68c for type 'struct value_type', which requires 8 byte alignment 0x7f76e807f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x5641eee034bc for type 'struct value_type', which requires 8 byte alignment 0x5641eee034bc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 77 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x5641eee034bc for type 'struct value_type', which requires 8 byte alignment 0x5641eee034bc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 77 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76f007f314 for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f314: note: pointer points here 73 00 69 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 73 00 69 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x5641eee034bc for type 'struct value_type', which requires 8 byte alignment 0x5641eee034bc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 77 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e807f68c for type 'struct value_type', which requires 8 byte alignment 0x7f76e807f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7f76e007f314 for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f314: note: pointer points here 76 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 76 7f 00 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76f007f314 for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f314: note: pointer points here 73 00 69 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 73 00 69 00 a9 32 16 c8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x5641eee03534 for type 'struct value_type', which requires 8 byte alignment 0x5641eee03534: note: pointer points here 77 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 77 7f 00 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76f007f32c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f32c: note: pointer points here 73 00 69 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 73 00 69 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x7f76e007f32c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f32c: note: pointer points here 76 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 76 7f 00 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76e807f71c for type 'struct value_type', which requires 8 byte alignment 0x7f76e807f71c: note: pointer points here 76 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 76 7f 00 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x5641eee0354c for type 'struct value_type', which requires 8 byte alignment 0x5641eee0354c: note: pointer points here 77 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 77 7f 00 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:457:26: runtime error: member access within misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f76f007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76f007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x7f76e007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f76e007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 76 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f76f007f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f76f007f284: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xbeg" for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 7.2714e-07) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ybeg" for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.0353e-09) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.8843e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zbeg" for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.8712e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 2.0142e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xsize" for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.7125e-07) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ysize" for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.0746e-09) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4274e-08) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zsize" for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.7469e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.6018e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "diam" for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.5839e-06) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "scale" for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.4654e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3860e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.351 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5839e-06) with 0 suppressions real 0m8.831s user 0m10.443s sys 0m0.628s ++ set +x -------------------------------------------------------------------------------------------------- ( 156 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL32.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x561d643416ac for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x561d643416ac: note: pointer points here 00 00 00 00 f2 d7 7a 3e e0 f1 25 64 1d 56 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f0 bf ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7efc7407f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc7407f434: note: pointer points here ff ff ff ff 37 32 03 c0 00 00 00 00 00 00 08 c0 72 ac 8b db 68 00 08 40 f2 87 b1 4f 53 cb fc bf ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7efc6c07f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6c07f044: note: pointer points here ff ff ff ff dd 0c e8 3f 19 2a 9d e4 1c 25 d5 3f 10 38 ee 00 1e 05 e8 3f 59 06 ec 6f 3d 55 d5 3f ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7efc7407f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc7407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x561d64341694 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x561d64341694: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7efc7407f434 for type 'struct type', which requires 8 byte alignment 0x7efc7407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x561d64341694 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x561d64341694: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7efc6407f4c4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6407f4c4: note: pointer points here 28 42 03 03 6d ea e7 3f 64 f9 08 90 0b 32 d5 3f 7e 87 25 76 13 e2 e7 3f 72 3f cf 78 93 ab d5 3f ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x561d64341694 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x561d64341694: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7efc7407f434 for type 'struct type', which requires 8 byte alignment 0x7efc7407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7efc6c07f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6c07f284: note: pointer points here 73 00 69 00 5a f7 e7 3f 4e da d9 82 97 67 d5 3f fc 24 b1 ec 81 a0 e7 3f 51 22 75 4e 9d af d2 3f ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7efc6407f044 for type 'struct type', which requires 8 byte alignment 0x7efc6407f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7efc6c07f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6c07f284: note: pointer points here 73 00 69 00 5a f7 e7 3f 4e da d9 82 97 67 d5 3f fc 24 b1 ec 81 a0 e7 3f 51 22 75 4e 9d af d2 3f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7efc6407f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6407f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7efc6c07f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6c07f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6407f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7e 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7efc7407f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc7407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x561d64341694 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x561d64341694: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6407f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7e 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x561d643418ec for type 'struct value_type', which requires 8 byte alignment 0x561d643418ec: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7efc7407f68c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x561d643418ec for type 'struct value_type', which requires 8 byte alignment 0x561d643418ec: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7efc7407f68c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6407f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7e 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc7407f68c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x561d643418ec for type 'struct value_type', which requires 8 byte alignment 0x561d643418ec: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x7efc6407f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7e 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7efc6407f314 for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f314: note: pointer points here fc 7e 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 fc 7e 00 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6c07f314 for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f314: note: pointer points here 73 00 69 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 73 00 69 00 a9 32 16 c8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7efc7407f68c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x561d64341964 for type 'struct value_type', which requires 8 byte alignment 0x561d64341964: note: pointer points here ff 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 ff 7f 00 00 a9 32 16 c8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x7efc6407f314 for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f314: note: pointer points here fc 7e 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 fc 7e 00 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6c07f32c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f32c: note: pointer points here 73 00 69 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 73 00 69 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x7efc7407f71c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f71c: note: pointer points here 73 00 69 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 73 00 69 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x561d6434197c for type 'struct value_type', which requires 8 byte alignment 0x561d6434197c: note: pointer points here ff 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 ff 7f 00 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x7efc6407f32c for type 'struct value_type', which requires 8 byte alignment 0x7efc6407f32c: note: pointer points here fc 7e 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 fc 7e 00 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:457:26: runtime error: member access within misaligned address 0x7efc7407f68c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7efc7407f68c for type 'struct value_type', which requires 8 byte alignment 0x7efc7407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x561d643418ec for type 'struct value_type', which requires 8 byte alignment 0x561d643418ec: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x7efc6c07f29c for type 'struct value_type', which requires 8 byte alignment 0x7efc6c07f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7efc6407f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7efc6407f284: note: pointer points here fc 7e 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xbeg" for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 7.2714e-07) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ybeg" for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.0353e-09) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.8843e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zbeg" for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.8712e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 2.0142e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xsize" for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.7125e-07) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ysize" for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.0746e-09) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4274e-08) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zsize" for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.7469e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.6018e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "diam" for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.5839e-06) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "scale" for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.4654e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3860e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.411 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5839e-06) with 0 suppressions real 0m10.898s user 0m10.538s sys 0m0.862s ++ set +x -------------------------------------------------------------------------------------------------- ( 157 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL33.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f4e4c07f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e4c07f434: note: pointer points here ff ff ff ff 37 32 03 c0 00 00 00 00 00 00 f0 bf 72 ac 8b db 68 00 08 40 f2 87 b1 4f 53 cb fc bf ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f4e5407f8b4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5407f8b4: note: pointer points here ee 5f 7b 99 27 8d 5d 3c 00 00 00 00 00 00 08 c0 55 7d ae b6 62 ff 1b 40 f0 57 8e 8a 37 32 e3 3f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f4e5007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5007f044: note: pointer points here ff ff ff ff dd 0c e8 3f 19 2a 9d e4 1c 25 d5 3f 10 38 ee 00 1e 05 e8 3f 59 06 ec 6f 3d 55 d5 3f ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f4e5407f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f4e4c07f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e4c07f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f4e5407f434 for type 'struct type', which requires 8 byte alignment 0x7f4e5407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f4e5007f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5007f284: note: pointer points here 4e 7f 00 00 5a f7 e7 3f 4e da d9 82 97 67 d5 3f fc 24 b1 ec 81 a0 e7 3f 51 22 75 4e 9d af d2 3f ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7f4e5407f434 for type 'struct type', which requires 8 byte alignment 0x7f4e5407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f4e5007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f4e5407f434 for type 'struct type', which requires 8 byte alignment 0x7f4e5407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f4e4c07f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e4c07f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7f4e5407f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f4e5007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f4e5407f434 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5407f434: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f4e5007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e5407f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f4e5007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e5407f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f4e5007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f4e4c07f674 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e4c07f674: note: pointer points here 73 00 69 00 37 32 f3 bf 00 00 00 00 00 00 f0 bf c7 29 3a 92 cb ff 13 40 58 28 59 8a 37 32 e3 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f4e5007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x55e09a014fcc for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55e09a014fcc: note: pointer points here 00 00 00 00 00 00 00 00 30 2a 01 9a e0 55 00 00 04 00 00 00 e0 55 00 00 00 00 00 00 00 00 00 00 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55e09a01520c for type 'struct value_type', which requires 8 byte alignment 0x55e09a01520c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55e09a01520c for type 'struct value_type', which requires 8 byte alignment 0x55e09a01520c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e5407f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7f4e5407f704 for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f704: note: pointer points here 4e 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 4e 7f 00 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e4c07f704 for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f704: note: pointer points here 73 00 69 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 73 00 69 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55e09a015284 for type 'struct value_type', which requires 8 byte alignment 0x55e09a015284: note: pointer points here ff 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 ff 7f 00 00 a9 32 16 c8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x7f4e5407f704 for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f704: note: pointer points here 4e 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 4e 7f 00 00 a9 32 16 c8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x7f4e5007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e5407f71c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f71c: note: pointer points here 4e 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 4e 7f 00 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e4c07f71c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f71c: note: pointer points here 73 00 69 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 73 00 69 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x55e09a01529c for type 'struct value_type', which requires 8 byte alignment 0x55e09a01529c: note: pointer points here ff 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 ff 7f 00 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x7f4e5007f32c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f32c: note: pointer points here 4e 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 4e 7f 00 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e5407f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x7f4e5007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f4e5407f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5407f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:457:26: runtime error: member access within misaligned address 0x7f4e4c07f68c for type 'struct value_type', which requires 8 byte alignment 0x7f4e4c07f68c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f4e5407f674 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f4e5407f674: note: pointer points here 4e 7f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x7f4e5007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f4e5007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 4e 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55e09a01520c for type 'struct value_type', which requires 8 byte alignment 0x55e09a01520c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 04 1d 17 1c ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xbeg" for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 7.2714e-07) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ybeg" for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.0353e-09) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.8843e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zbeg" for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.8712e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 2.0142e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xsize" for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.7125e-07) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ysize" for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.0746e-09) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4274e-08) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zsize" for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.7469e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.6018e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "diam" for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.5839e-06) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "scale" for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.4654e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3860e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.996 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5839e-06) with 0 suppressions real 0m11.255s user 0m12.056s sys 0m0.706s ++ set +x -------------------------------------------------------------------------------------------------- ( 158 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL34.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7f8f9007f05c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f05c: note: pointer points here 00 00 00 00 3d 55 d5 3f a7 74 c5 bf 34 2b 5b bf fc 97 b5 a2 57 11 40 3f 85 52 77 ff e1 fd e7 3f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x55dd1645dd04 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55dd1645dd04: note: pointer points here 2d 43 1c eb e2 36 1a 3f 00 00 00 00 00 00 00 00 01 00 00 00 00 00 f0 bf 02 00 00 00 00 00 e0 bf ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f8f9007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x55dd1645d884 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55dd1645d884: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f8f9007f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f284: note: pointer points here 8f 7f 00 00 5a f7 e7 3f 4e da d9 82 97 67 d5 3f fc 24 b1 ec 81 a0 e7 3f 51 22 75 4e 9d af d2 3f ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x55dd1645d884 for type 'struct type', which requires 8 byte alignment 0x55dd1645d884: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f8f9007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f8f9407f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9407f044: note: pointer points here ff ff ff ff 37 32 f3 bf 00 00 00 00 00 00 08 c0 2e 87 16 d9 ce f7 ef bf 88 c8 b0 8a 37 32 e3 bf ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f8f9007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f8f9407f044 for type 'struct type', which requires 8 byte alignment 0x7f8f9407f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f8f9007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7f8f9407f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9407f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f8f9007f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f284: note: pointer points here 8f 7f 00 00 5a f7 e7 3f 4e da d9 82 97 67 d5 3f fc 24 b1 ec 81 a0 e7 3f 51 22 75 4e 9d af d2 3f ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f8f9407f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9407f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f8f9007f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f044: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x55dd1645d884 for type 'struct type', which requires 8 byte alignment 0x55dd1645d884: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x55dd1645dadc for type 'struct value_type', which requires 8 byte alignment 0x55dd1645dadc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55dd1645dadc for type 'struct value_type', which requires 8 byte alignment 0x55dd1645dadc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f8f8c07f044 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f8c07f044: note: pointer points here ff ff ff ff 37 32 f3 bf 00 00 00 00 00 00 f0 bf 2e 87 16 d9 ce f7 ef bf 88 c8 b0 8a 37 32 e3 bf ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9407f314 for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f314: note: pointer points here 73 00 69 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 73 00 69 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f314 for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f314: note: pointer points here 8f 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 8f 7f 00 00 a9 32 16 c8 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x7f8f9407f314 for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f314: note: pointer points here 73 00 69 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 73 00 69 00 a9 32 16 c8 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f32c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f32c: note: pointer points here 8f 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 8f 7f 00 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x7f8f9407f32c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f32c: note: pointer points here 73 00 69 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 73 00 69 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f32c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f32c: note: pointer points here 8f 7f 00 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 8f 7f 00 00 a8 57 3c 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x7f8f9407f32c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f32c: note: pointer points here 73 00 69 00 a9 32 16 c8 03 7f e9 3f 9d 8d fc ff e0 02 d0 3f 0d 00 00 00 73 00 69 00 a8 57 3c 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55dd1645dadc for type 'struct value_type', which requires 8 byte alignment 0x55dd1645dadc: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 fc 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:457:26: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f8f9007f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9007f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 8f 7f 00 00 04 1d 17 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x7f8f9407f29c for type 'struct value_type', which requires 8 byte alignment 0x7f8f9407f29c: note: pointer points here 00 00 00 00 a4 5e ae 42 5b a7 e9 3f 24 4a 65 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 04 1d 17 1c ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f8f9007f284 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f8f9007f284: note: pointer points here 8f 7f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 a4 5e ae 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7f8f8c07f314 for type 'struct value_type', which requires 8 byte alignment 0x7f8f8c07f314: note: pointer points here 8f 7f 00 00 39 a9 69 79 87 85 e9 3f e6 c4 b6 df a3 01 d0 3f 0d 00 00 00 8f 7f 00 00 a9 32 16 c8 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xbeg" for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 7.2714e-07) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ybeg" for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.0353e-09) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.8843e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zbeg" for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 9.8712e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 2.0142e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "xsize" for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.7125e-07) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "ysize" for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.0746e-09) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4274e-08) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "zsize" for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.7469e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.6018e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "diam" for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.5839e-06) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "scale" for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.4654e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3860e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.350 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5839e-06) with 0 suppressions real 0m7.904s user 0m10.744s sys 0m0.672s ++ set +x -------------------------------------------------------------------------------------------------- ( 159 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL40.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "xbeg" for ibody=9 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "ybeg" for ibody=9 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "zbeg" for ibody=9 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.3848e-17) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "xsize" for ibody=9 d(Face)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "ysize" for ibody=9 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.8421e-10) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 5.5393e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "zsize" for ibody=9 d(Face)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.1078e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "diam" for ibody=9 d(Face)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "scale" for ibody=9 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.2391e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.6015e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.127 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4032e-09) with 0 suppressions real 0m2.246s user 0m2.528s sys 0m0.339s ++ set +x -------------------------------------------------------------------------------------------------- ( 160 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL41.csm -geom -outLevel 0 (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7fcc540aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc540aa034: note: pointer points here ff ff ff ff 15 00 00 00 16 00 00 00 17 00 00 00 18 00 00 00 19 00 00 00 1a 00 00 00 1b 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fcc5c07fa74 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc5c07fa74: note: pointer points here ff ff ff ff 33 33 03 c0 00 00 00 00 00 00 08 c0 00 00 00 00 00 00 f0 bf cc cc cc cc cc cc 00 c0 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x7fcc4c0aa04c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa04c: note: pointer points here 00 00 00 00 1b 00 00 00 1c 00 00 00 1d 00 00 00 1e 00 00 00 1f 00 00 00 20 00 00 00 21 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x55b5cdc79184 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55b5cdc79184: note: pointer points here 04 02 00 00 05 02 00 00 06 02 00 00 07 02 00 00 08 02 00 00 09 02 00 00 0a 02 00 00 0b 02 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fcc4c0aa274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa274: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7fcc5c07fa74 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc5c07fa74: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fcc4c0aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7fcc540aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc540aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fcc4c0aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7fcc540aa034 for type 'struct type', which requires 8 byte alignment 0x7fcc540aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7fcc4c0aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x7fcc540aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc540aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7fcc4c0aa274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa274: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x55b5cdc78d04 for type 'struct type', which requires 8 byte alignment 0x55b5cdc78d04: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7fcc540aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc540aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fcc4c0aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc4c0aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x7fcc5c07fa74 for type 'struct type', which requires 8 byte alignment 0x7fcc5c07fa74: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc4c0aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b5cdc78f5c for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78f5c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 fe 7f 00 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc4c0aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x55b5cdc78f5c for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78f5c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 fe 7f 00 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7fcc5c07fccc for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fccc: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7fcc540aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc4c0aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x55b5cdc78f5c for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78f5c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 fe 7f 00 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc4c0aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc5c07fccc for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fccc: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x55b5cdc78f5c for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78f5c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 fe 7f 00 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7fcc540aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x7fcc5c07fccc for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fccc: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7fcc540aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b5cdc78f5c for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78f5c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 fe 7f 00 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7fcc540aa304 for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa304: note: pointer points here 73 00 69 00 40 84 6e 79 87 85 e9 3f a3 dc ea df a3 01 d0 3f 0d 00 00 00 73 00 69 00 31 0b f2 c7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc4c0aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55b5cdc78fd4 for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78fd4: note: pointer points here fe 7f 00 00 40 84 6e 79 87 85 e9 3f a3 dc ea df a3 01 d0 3f 0d 00 00 00 fe 7f 00 00 31 0b f2 c7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc5c07fd44 for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fd44: note: pointer points here 73 00 69 00 40 84 6e 79 87 85 e9 3f a3 dc ea df a3 01 d0 3f 0d 00 00 00 73 00 69 00 31 0b f2 c7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc4c0aa31c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa31c: note: pointer points here 73 00 69 00 31 0b f2 c7 03 7f e9 3f 5d bd 37 00 e1 02 d0 3f 0d 00 00 00 73 00 69 00 21 16 35 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x7fcc540aa304 for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa304: note: pointer points here 73 00 69 00 40 84 6e 79 87 85 e9 3f a3 dc ea df a3 01 d0 3f 0d 00 00 00 73 00 69 00 31 0b f2 c7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc5c07fd5c for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fd5c: note: pointer points here 73 00 69 00 31 0b f2 c7 03 7f e9 3f 5d bd 37 00 e1 02 d0 3f 0d 00 00 00 73 00 69 00 21 16 35 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x7fcc4c0aa31c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa31c: note: pointer points here 73 00 69 00 31 0b f2 c7 03 7f e9 3f 5d bd 37 00 e1 02 d0 3f 0d 00 00 00 73 00 69 00 21 16 35 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x55b5cdc78fec for type 'struct value_type', which requires 8 byte alignment 0x55b5cdc78fec: note: pointer points here fe 7f 00 00 31 0b f2 c7 03 7f e9 3f 5d bd 37 00 e1 02 d0 3f 0d 00 00 00 fe 7f 00 00 21 16 35 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc540aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:457:26: runtime error: member access within misaligned address 0x7fcc540aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc5c07fccc for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fccc: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7fcc540aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc540aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x7fcc5c07fccc for type 'struct value_type', which requires 8 byte alignment 0x7fcc5c07fccc: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x7fcc4c0aa28c for type 'struct value_type', which requires 8 byte alignment 0x7fcc4c0aa28c: note: pointer points here 00 00 00 00 dd 15 9b 42 5b a7 e9 3f 0b ce a0 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 33 95 01 1c ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7fcc540aa274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7fcc540aa274: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 dd 15 9b 42 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "xbeg" for ibody=18 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 7.2704e-07) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "ybeg" for ibody=18 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.1434e-09) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 4.3132e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "zbeg" for ibody=18 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.3982e-09) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.6024e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "xsize" for ibody=18 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.7116e-07) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "ysize" for ibody=18 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.1872e-09) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4260e-08) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "zsize" for ibody=18 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.7469e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.7180e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "diam" for ibody=18 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.5835e-06) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "scale" for ibody=18 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.4654e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3860e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.4032e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.276 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5835e-06) with 0 suppressions real 0m10.147s user 0m12.403s sys 0m0.729s ++ set +x -------------------------------------------------------------------------------------------------- ( 161 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL42.csm -geom -outLevel 0 /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f3bc00aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc00aa034: note: pointer points here ff ff ff ff 15 00 00 00 16 00 00 00 17 00 00 00 18 00 00 00 19 00 00 00 1a 00 00 00 1b 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35ef301): runtime error: store to misaligned address 0x55f451369b3c for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55f451369b3c: note: pointer points here 00 00 00 00 00 00 00 00 30 4c 36 51 f4 55 00 00 04 00 00 00 f4 55 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f4b84): runtime error: store to misaligned address 0x7f3bc80aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc80aa034: note: pointer points here ff ff ff ff 15 00 00 00 16 00 00 00 17 00 00 00 18 00 00 00 19 00 00 00 1a 00 00 00 1b 00 00 00 ^ /usr/include/c++/11/bits/stl_iterator.h:1481:50: runtime error: reference binding to misaligned address 0x7f3bc00aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc00aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x7f3bc80aa274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc80aa274: note: pointer points here 3b 7f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/stl_uninitialized.h:319:25: runtime error: reference binding to misaligned address 0x55f451369b24 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55f451369b24: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f3bc80aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc80aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/alloc_traits.h:364:16: runtime error: reference binding to misaligned address 0x7f3bc00aa034 for type 'struct type', which requires 8 byte alignment 0x7f3bc00aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9900): runtime error: store to misaligned address 0x7f3bc40aa4b4 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc40aa4b4: note: pointer points here 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ /usr/include/c++/11/bits/alloc_traits.h:251:17: runtime error: reference binding to misaligned address 0x55f451369b24 for type 'struct type', which requires 8 byte alignment 0x55f451369b24: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f3bc40aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc40aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/move.h:78:36: runtime error: reference binding to misaligned address 0x7f3bc80aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc80aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:52: runtime error: reference binding to misaligned address 0x7f3bc00aa034 for type 'struct type', which requires 8 byte alignment 0x7f3bc00aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/NCollection/NCollection_OccAllocator.hxx:153:5: runtime error: reference binding to misaligned address 0x55f451369b24 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x55f451369b24: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f3bc00aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc00aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:124:16: runtime error: member access within misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f9394): runtime error: store to misaligned address 0x7f3bc40aa274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc40aa274: note: pointer points here 3b 7f 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ^ (/home/jenkins/util/ESP/opencascade-7.8/trunk/build_undefined/install/lib/libTKGeomAlgo.so.7.8+0x35f93cd): runtime error: load of misaligned address 0x7f3bc80aa034 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc80aa034: note: pointer points here ff ff ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:144:24: runtime error: member access within misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:145:24: runtime error: member access within misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:127:29: runtime error: member access within misaligned address 0x7f3bc80aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc80aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 3b 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:425:16: runtime error: member access within misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc40aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc40aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 3b 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:427:13: runtime error: member access within misaligned address 0x7f3bc40aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc40aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 3b 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc00aa304 for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa304: note: pointer points here 73 00 69 00 5c d1 66 79 87 85 e9 3f 30 aa ea df a3 01 d0 3f 0d 00 00 00 73 00 69 00 ce ce e8 c7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:426:13: runtime error: member access within misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc80aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc80aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 3b 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc00aa304 for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa304: note: pointer points here 73 00 69 00 5c d1 66 79 87 85 e9 3f 30 aa ea df a3 01 d0 3f 0d 00 00 00 73 00 69 00 ce ce e8 c7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:18: runtime error: member access within misaligned address 0x55f451369df4 for type 'struct value_type', which requires 8 byte alignment 0x55f451369df4: note: pointer points here ff 7f 00 00 5c d1 66 79 87 85 e9 3f 30 aa ea df a3 01 d0 3f 0d 00 00 00 ff 7f 00 00 ce ce e8 c7 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc80aa31c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc80aa31c: note: pointer points here 3b 7f 00 00 ce ce e8 c7 03 7f e9 3f b2 cf 37 00 e1 02 d0 3f 0d 00 00 00 3b 7f 00 00 e6 4f 2f 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x55f451369e0c for type 'struct value_type', which requires 8 byte alignment 0x55f451369e0c: note: pointer points here ff 7f 00 00 ce ce e8 c7 03 7f e9 3f b2 cf 37 00 e1 02 d0 3f 0d 00 00 00 ff 7f 00 00 e6 4f 2f 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:30: runtime error: member access within misaligned address 0x7f3bc00aa31c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa31c: note: pointer points here 73 00 69 00 ce ce e8 c7 03 7f e9 3f b2 cf 37 00 e1 02 d0 3f 0d 00 00 00 73 00 69 00 e6 4f 2f 99 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:465:28: runtime error: member access within misaligned address 0x7f3bc40aa304 for type 'struct value_type', which requires 8 byte alignment 0x7f3bc40aa304: note: pointer points here 3b 7f 00 00 5c d1 66 79 87 85 e9 3f 30 aa ea df a3 01 d0 3f 0d 00 00 00 3b 7f 00 00 ce ce e8 c7 ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_2.gxx:476:20: runtime error: member access within misaligned address 0x7f3bc80aa31c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc80aa31c: note: pointer points here 3b 7f 00 00 ce ce e8 c7 03 7f e9 3f b2 cf 37 00 e1 02 d0 3f 0d 00 00 00 3b 7f 00 00 e6 4f 2f 99 ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:457:26: runtime error: member access within misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:29: runtime error: member access within misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/stl_vector.h:1046:34: runtime error: reference binding to misaligned address 0x7f3bc00aa28c for type 'struct value_type', which requires 8 byte alignment 0x7f3bc00aa28c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 73 00 69 00 f5 63 f8 1b ^ /home/jenkins/util/ESP/opencascade-7.8/trunk/src/IntWalk/IntWalk_IWalking_4.gxx:568:20: runtime error: member access within misaligned address 0x55f451369d7c for type 'struct value_type', which requires 8 byte alignment 0x55f451369d7c: note: pointer points here 00 00 00 00 eb ef 93 42 5b a7 e9 3f 0a 00 a1 2e c5 00 d0 3f 0d 00 00 00 ff 7f 00 00 f5 63 f8 1b ^ /usr/include/c++/11/bits/alloc_traits.h:838:39: runtime error: reference binding to misaligned address 0x7f3bc00aa274 for type 'struct IntWalk_WalkingData', which requires 8 byte alignment 0x7f3bc00aa274: note: pointer points here 73 00 69 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 f6 ff ff ff 00 00 00 00 eb ef 93 42 ^ --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "xbeg" for ibody=18 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 7.2703e-07) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ybeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "ybeg" for ibody=18 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.1618e-09) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.0384e-15) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "zbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "zbeg" for ibody=18 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.5240e-09) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 8.5028e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.3218e-09) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "xsize" for ibody=18 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 6.7116e-07) d(Node)/d(xsize) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "ysize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "ysize" for ibody=18 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.1640e-09) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4258e-08) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.9850e-10) ********************************************************* Starting geometric sensitivity wrt "zsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "zsize" for ibody=18 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.7469e-10) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.4883e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "diam" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "diam" for ibody=18 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.9075e-09) d(Edge)/d(diam) check complete with 0 total errors (errmax= 2.5835e-06) d(Node)/d(diam) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=18 Computing finite difference sensitivities for ibody=18 Comparing geometric sensitivities wrt "scale" for ibody=18 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.4654e-09) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3860e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.5702e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.693 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5835e-06) with 0 suppressions real 0m11.249s user 0m12.472s sys 0m0.794s ++ set +x -------------------------------------------------------------------------------------------------- ( 162 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "a" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "a" for ibody=5 d(Face)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) d(Edge)/d(a) check complete with 0 total errors (errmax= 1.7036e-18) d(Node)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "b" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "b" for ibody=5 d(Face)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) d(Edge)/d(b) check complete with 0 total errors (errmax= 6.4592e-18) d(Node)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) ********************************************************* Starting geometric sensitivity wrt "c" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "c" for ibody=5 d(Face)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) d(Edge)/d(c) check complete with 0 total errors (errmax= 1.3249e-17) d(Node)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) ********************************************************* Starting geometric sensitivity wrt "d" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "d" for ibody=5 d(Face)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) d(Edge)/d(d) check complete with 0 total errors (errmax= 1.7036e-18) d(Node)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "e" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "e" for ibody=5 d(Face)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) d(Edge)/d(e) check complete with 0 total errors (errmax= 1.6845e-18) d(Node)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) ********************************************************* Starting geometric sensitivity wrt "f" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "f" for ibody=5 d(Face)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) d(Edge)/d(f) check complete with 0 total errors (errmax= 4.8909e-18) d(Node)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) ********************************************************* Starting geometric sensitivity wrt "g" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "g" for ibody=5 d(Face)/d(g) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(g) check complete with 0 total errors (errmax= 1.3629e-17) d(Node)/d(g) check complete with 0 total errors (errmax= 3.8651e-10) ********************************************************* Starting geometric sensitivity wrt "h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "h" for ibody=5 d(Face)/d(h) check complete with 0 total errors (errmax= 3.2483e-10) d(Edge)/d(h) check complete with 0 total errors (errmax= 1.3169e-17) d(Node)/d(h) check complete with 0 total errors (errmax= 3.9157e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.132 sec Sensitivity checks complete with 0 total errors (max geom err= 3.9157e-10) with 0 suppressions real 0m1.355s user 0m1.237s sys 0m0.333s ++ set +x -------------------------------------------------------------------------------------------------- ( 163 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "a" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "a" for ibody=6 d(Face)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) d(Edge)/d(a) check complete with 0 total errors (errmax= 1.7036e-18) d(Node)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "b" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "b" for ibody=6 d(Face)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) d(Edge)/d(b) check complete with 0 total errors (errmax= 6.4592e-18) d(Node)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) ********************************************************* Starting geometric sensitivity wrt "c" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "c" for ibody=6 d(Face)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) d(Edge)/d(c) check complete with 0 total errors (errmax= 1.3249e-17) d(Node)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) ********************************************************* Starting geometric sensitivity wrt "d" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "d" for ibody=6 d(Face)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) d(Edge)/d(d) check complete with 0 total errors (errmax= 1.7036e-18) d(Node)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "e" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "e" for ibody=6 d(Face)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) d(Edge)/d(e) check complete with 0 total errors (errmax= 1.6845e-18) d(Node)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) ********************************************************* Starting geometric sensitivity wrt "f" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "f" for ibody=6 d(Face)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) d(Edge)/d(f) check complete with 0 total errors (errmax= 4.8909e-18) d(Node)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) ********************************************************* Starting geometric sensitivity wrt "g" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "g" for ibody=6 d(Face)/d(g) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(g) check complete with 0 total errors (errmax= 1.3629e-17) d(Node)/d(g) check complete with 0 total errors (errmax= 3.8651e-10) ********************************************************* Starting geometric sensitivity wrt "h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "h" for ibody=6 d(Face)/d(h) check complete with 0 total errors (errmax= 3.2483e-10) d(Edge)/d(h) check complete with 0 total errors (errmax= 1.3169e-17) d(Node)/d(h) check complete with 0 total errors (errmax= 3.9157e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.030 sec Sensitivity checks complete with 0 total errors (max geom err= 3.9157e-10) with 0 suppressions real 0m1.885s user 0m1.398s sys 0m0.313s ++ set +x -------------------------------------------------------------------------------------------------- ( 164 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "a" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "a" for ibody=7 d(Face)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) d(Edge)/d(a) check complete with 0 total errors (errmax= 1.7036e-18) d(Node)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "b" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "b" for ibody=7 d(Face)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) d(Edge)/d(b) check complete with 0 total errors (errmax= 6.4592e-18) d(Node)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) ********************************************************* Starting geometric sensitivity wrt "c" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "c" for ibody=7 d(Face)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) d(Edge)/d(c) check complete with 0 total errors (errmax= 1.3249e-17) d(Node)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) ********************************************************* Starting geometric sensitivity wrt "d" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "d" for ibody=7 d(Face)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) d(Edge)/d(d) check complete with 0 total errors (errmax= 1.7036e-18) d(Node)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "e" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "e" for ibody=7 d(Face)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) d(Edge)/d(e) check complete with 0 total errors (errmax= 1.6845e-18) d(Node)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) ********************************************************* Starting geometric sensitivity wrt "f" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "f" for ibody=7 d(Face)/d(f) check complete with 0 total errors (errmax= 3.7745e-10) d(Edge)/d(f) check complete with 0 total errors (errmax= 1.3249e-17) d(Node)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) ********************************************************* Starting geometric sensitivity wrt "g" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "g" for ibody=7 d(Face)/d(g) check complete with 0 total errors (errmax= 2.7069e-10) d(Edge)/d(g) check complete with 0 total errors (errmax= 1.3629e-17) d(Node)/d(g) check complete with 0 total errors (errmax= 3.8651e-10) ********************************************************* Starting geometric sensitivity wrt "h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "h" for ibody=7 d(Face)/d(h) check complete with 0 total errors (errmax= 3.2483e-10) d(Edge)/d(h) check complete with 0 total errors (errmax= 1.3169e-17) d(Node)/d(h) check complete with 0 total errors (errmax= 3.9157e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.038 sec Sensitivity checks complete with 0 total errors (max geom err= 3.9157e-10) with 0 suppressions real 0m1.934s user 0m1.545s sys 0m0.325s ++ set +x -------------------------------------------------------------------------------------------------- ( 165 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "a" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "a" for ibody=8 d(Face)/d(a) check complete with 0 total errors (errmax= 4.1037e-10) d(Edge)/d(a) check complete with 0 total errors (errmax= 8.3869e-18) d(Node)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "b" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "b" for ibody=8 d(Face)/d(b) check complete with 0 total errors (errmax= 2.3773e-10) d(Edge)/d(b) check complete with 0 total errors (errmax= 6.0208e-18) d(Node)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) ********************************************************* Starting geometric sensitivity wrt "c" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "c" for ibody=8 d(Face)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) d(Edge)/d(c) check complete with 0 total errors (errmax= 2.1039e-17) d(Node)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) ********************************************************* Starting geometric sensitivity wrt "d" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "d" for ibody=8 d(Face)/d(d) check complete with 0 total errors (errmax= 4.1037e-10) d(Edge)/d(d) check complete with 0 total errors (errmax= 5.9763e-18) d(Node)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "e" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "e" for ibody=8 d(Face)/d(e) check complete with 0 total errors (errmax= 1.8381e-10) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.5790e-18) d(Node)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) ********************************************************* Starting geometric sensitivity wrt "f" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "f" for ibody=8 d(Face)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) d(Edge)/d(f) check complete with 0 total errors (errmax= 1.0319e-17) d(Node)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) ********************************************************* Starting geometric sensitivity wrt "g" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "g" for ibody=8 d(Face)/d(g) check complete with 0 total errors (errmax= 5.0223e-10) d(Edge)/d(g) check complete with 0 total errors (errmax= 2.5681e-17) d(Node)/d(g) check complete with 0 total errors (errmax= 3.8651e-10) ********************************************************* Starting geometric sensitivity wrt "h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "h" for ibody=8 d(Face)/d(h) check complete with 0 total errors (errmax= 5.8648e-10) d(Edge)/d(h) check complete with 0 total errors (errmax= 2.8129e-17) d(Node)/d(h) check complete with 0 total errors (errmax= 3.9157e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.048 sec Sensitivity checks complete with 0 total errors (max geom err= 5.8648e-10) with 0 suppressions real 0m6.525s user 0m6.267s sys 0m0.467s ++ set +x -------------------------------------------------------------------------------------------------- ( 166 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "a" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "a" for ibody=8 d(Face)/d(a) check complete with 0 total errors (errmax= 4.1037e-10) d(Edge)/d(a) check complete with 0 total errors (errmax= 8.3869e-18) d(Node)/d(a) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "b" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "b" for ibody=8 d(Face)/d(b) check complete with 0 total errors (errmax= 2.3773e-10) d(Edge)/d(b) check complete with 0 total errors (errmax= 6.0208e-18) d(Node)/d(b) check complete with 0 total errors (errmax= 2.6354e-10) ********************************************************* Starting geometric sensitivity wrt "c" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "c" for ibody=8 d(Face)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) d(Edge)/d(c) check complete with 0 total errors (errmax= 2.1039e-17) d(Node)/d(c) check complete with 0 total errors (errmax= 3.7745e-10) ********************************************************* Starting geometric sensitivity wrt "d" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "d" for ibody=8 d(Face)/d(d) check complete with 0 total errors (errmax= 4.1037e-10) d(Edge)/d(d) check complete with 0 total errors (errmax= 5.9763e-18) d(Node)/d(d) check complete with 0 total errors (errmax= 1.3534e-10) ********************************************************* Starting geometric sensitivity wrt "e" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "e" for ibody=8 d(Face)/d(e) check complete with 0 total errors (errmax= 1.8381e-10) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.5790e-18) d(Node)/d(e) check complete with 0 total errors (errmax= 1.3459e-10) ********************************************************* Starting geometric sensitivity wrt "f" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "f" for ibody=8 d(Face)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) d(Edge)/d(f) check complete with 0 total errors (errmax= 1.0319e-17) d(Node)/d(f) check complete with 0 total errors (errmax= 2.2933e-10) ********************************************************* Starting geometric sensitivity wrt "g" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "g" for ibody=8 d(Face)/d(g) check complete with 0 total errors (errmax= 5.0223e-10) d(Edge)/d(g) check complete with 0 total errors (errmax= 2.5681e-17) d(Node)/d(g) check complete with 0 total errors (errmax= 3.8651e-10) ********************************************************* Starting geometric sensitivity wrt "h" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "h" for ibody=8 d(Face)/d(h) check complete with 0 total errors (errmax= 5.8648e-10) d(Edge)/d(h) check complete with 0 total errors (errmax= 2.8129e-17) d(Node)/d(h) check complete with 0 total errors (errmax= 3.9157e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.149 sec Sensitivity checks complete with 0 total errors (max geom err= 5.8648e-10) with 0 suppressions real 0m6.179s user 0m6.178s sys 0m0.374s ++ set +x -------------------------------------------------------------------------------------------------- ( 167 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designN1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xsize" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "xsize" for ibody=1 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.0827e-07) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.0901e-12) d(Node)/d(xsize) check complete with 0 total errors (errmax= 1.0827e-07) ********************************************************* Starting geometric sensitivity wrt "frontArea" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "frontArea" for ibody=1 d(Face)/d(frontArea) check complete with 0 total errors (errmax= 8.8322e-09) d(Edge)/d(frontArea) check complete with 0 total errors (errmax= 7.2558e-15) d(Node)/d(frontArea) check complete with 0 total errors (errmax= 8.8328e-09) ********************************************************* Starting geometric sensitivity wrt "volume" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "volume" for ibody=1 d(Face)/d(volume) check complete with 0 total errors (errmax= 1.2147e-10) d(Edge)/d(volume) check complete with 0 total errors (errmax= 1.3723e-18) d(Node)/d(volume) check complete with 0 total errors (errmax= 1.2147e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.005 sec Sensitivity checks complete with 0 total errors (max geom err= 1.0827e-07) with 0 suppressions real 0m0.573s user 0m0.290s sys 0m0.274s ++ set +x -------------------------------------------------------------------------------------------------- ( 168 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designN2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "area" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "area" for ibody=1 d(Face)/d(area) check complete with 0 total errors (errmax= 2.3651e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 1.1324e-11) d(Node)/d(area) check complete with 0 total errors (errmax= 2.4478e-07) ********************************************************* Starting geometric sensitivity wrt "vol" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "vol" for ibody=1 d(Face)/d(vol) check complete with 0 total errors (errmax= 1.2350e-07) d(Edge)/d(vol) check complete with 0 total errors (errmax= 3.0845e-12) d(Node)/d(vol) check complete with 0 total errors (errmax= 1.2775e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.007 sec Sensitivity checks complete with 0 total errors (max geom err= 2.4478e-07) with 0 suppressions real 0m0.868s user 0m0.807s sys 0m0.297s ++ set +x -------------------------------------------------------------------------------------------------- ( 169 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "X0" for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.5690e-18) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.8585e-11) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Y0" for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 2.7373e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Z0" for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 3.5168e-18) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "L" for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.1601e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "H" for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.1601e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX1" for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 7.1173e-18) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY1" for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 6.9303e-18) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ1" for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 1.0991e-18) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX2" for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 7.1173e-18) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY2" for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 6.9303e-18) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ2" for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.2039e-18) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX3" for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 4.8585e-18) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY3" for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.0799e-17) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ3" for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 4.9193e-18) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S1" for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S1) check complete with 0 total errors (errmax= 3.7583e-17) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.3522e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S2" for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S2) check complete with 0 total errors (errmax= 9.8358e-18) d(Node)/d(S2) check complete with 0 total errors (errmax= 6.5065e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.001 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3522e-09) with 0 suppressions real 0m0.525s user 0m0.221s sys 0m0.298s ++ set +x -------------------------------------------------------------------------------------------------- ( 170 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "X0" for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(X0) check complete with 0 total errors (errmax= 7.1520e-20) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.8585e-11) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Y0" for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Z0" for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 3.5168e-18) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "L" for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "H" for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX1" for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 6.4134e-18) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY1" for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 6.8143e-18) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ1" for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 1.5664e-18) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX2" for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 6.4134e-18) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY2" for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 6.8143e-18) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ2" for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 1.1372e-18) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX3" for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 3.9726e-18) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY3" for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.1458e-17) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ3" for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.7208e-19) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S1" for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S1) check complete with 0 total errors (errmax= 3.6743e-17) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.3522e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S2" for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.0272e-17) d(Node)/d(S2) check complete with 0 total errors (errmax= 6.5065e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.007 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3522e-09) with 0 suppressions real 0m0.541s user 0m0.187s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 171 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "X0" for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(X0) check complete with 0 total errors (errmax= 3.4257e-17) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.8585e-11) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Y0" for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 2.3636e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Z0" for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 9.3394e-18) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "L" for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "H" for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX1" for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 8.9944e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY1" for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 8.9972e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ1" for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 7.2515e-13) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX2" for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 7.6296e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY2" for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 7.4595e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ2" for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.8729e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX3" for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 3.2731e-14) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY3" for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 2.1095e-14) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ3" for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 8.8425e-14) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S1" for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S1) check complete with 0 total errors (errmax= 1.7725e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.3522e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S2" for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.4841e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 6.5065e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3522e-09) with 0 suppressions real 0m0.547s user 0m0.230s sys 0m0.306s ++ set +x -------------------------------------------------------------------------------------------------- ( 172 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "X0" for ibody=20 d(Face)/d(X0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.1587e-17) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.8585e-11) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "Y0" for ibody=20 d(Face)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 3.8277e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "Z0" for ibody=20 d(Face)/d(Z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 9.1277e-18) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "L" for ibody=20 d(Face)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "H" for ibody=20 d(Face)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX1" for ibody=20 d(Face)/d(DX1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 5.9707e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY1" for ibody=20 d(Face)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 5.9527e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ1" for ibody=20 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 9.8148e-14) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX2" for ibody=20 d(Face)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 2.8414e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY2" for ibody=20 d(Face)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 2.8585e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ2" for ibody=20 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.4924e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX3" for ibody=20 d(Face)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.8122e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY3" for ibody=20 d(Face)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.3679e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ3" for ibody=20 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.4957e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "S1" for ibody=20 d(Face)/d(S1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S1) check complete with 0 total errors (errmax= 4.5150e-17) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.3522e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "S2" for ibody=20 d(Face)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(S2) check complete with 0 total errors (errmax= 5.9893e-17) d(Node)/d(S2) check complete with 0 total errors (errmax= 6.5065e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max geom err= 1.3522e-09) with 0 suppressions real 0m0.571s user 0m0.279s sys 0m0.287s ++ set +x -------------------------------------------------------------------------------------------------- ( 173 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "X0" for ibody=24 d(Face)/d(X0) check complete with 0 total errors (errmax= 2.6850e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 6.2508e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.5925e-09) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "Y0" for ibody=24 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.0542e-09) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.0335e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 1.0542e-09) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "Z0" for ibody=24 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.6116e-09) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.1793e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 3.5609e-09) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "L" for ibody=24 d(Face)/d(L) check complete with 0 total errors (errmax= 4.1763e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4018e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 7.0497e-09) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "H" for ibody=24 d(Face)/d(H) check complete with 0 total errors (errmax= 5.1233e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 3.1302e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 5.8217e-09) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX1" for ibody=24 d(Face)/d(DX1) check complete with 0 total errors (errmax= 6.1199e-10) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 7.8651e-18) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY1" for ibody=24 d(Face)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 5.2997e-17) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ1" for ibody=24 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 4.7619e-10) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 6.8143e-18) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX2" for ibody=24 d(Face)/d(DX2) check complete with 0 total errors (errmax= 7.2898e-10) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 7.2483e-18) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY2" for ibody=24 d(Face)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 5.2997e-17) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ2" for ibody=24 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 5.9298e-10) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 5.4511e-18) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 3.5264e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX3" for ibody=24 d(Face)/d(DX3) check complete with 0 total errors (errmax= 7.1610e-10) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.7047e-17) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY3" for ibody=24 d(Face)/d(DY3) check complete with 0 total errors (errmax= 6.1821e-10) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 6.3582e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 1.7887e-09) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ3" for ibody=24 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 6.2564e-10) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 5.7087e-17) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "S1" for ibody=24 d(Face)/d(S1) check complete with 0 total errors (errmax= 1.8601e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 2.8558e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "S2" for ibody=24 d(Face)/d(S2) check complete with 0 total errors (errmax= 8.5884e-10) d(Edge)/d(S2) check complete with 0 total errors (errmax= 5.5420e-17) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.484 sec Sensitivity checks complete with 0 total errors (max geom err= 7.0497e-09) with 0 suppressions real 0m2.720s user 0m2.445s sys 0m0.299s ++ set +x -------------------------------------------------------------------------------------------------- ( 174 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "X0" for ibody=24 d(Face)/d(X0) check complete with 0 total errors (errmax= 2.3925e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 3.6105e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.5925e-09) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "Y0" for ibody=24 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.2897e-09) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.2102e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 1.0542e-09) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "Z0" for ibody=24 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.6436e-09) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.2550e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 3.5609e-09) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "L" for ibody=24 d(Face)/d(L) check complete with 0 total errors (errmax= 3.7406e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4192e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 7.0497e-09) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "H" for ibody=24 d(Face)/d(H) check complete with 0 total errors (errmax= 3.8005e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.4108e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 5.8217e-09) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX1" for ibody=24 d(Face)/d(DX1) check complete with 0 total errors (errmax= 1.7457e-09) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 1.5161e-16) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY1" for ibody=24 d(Face)/d(DY1) check complete with 0 total errors (errmax= 1.0326e-09) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 1.7036e-16) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ1" for ibody=24 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 5.8411e-10) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 4.5031e-17) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX2" for ibody=24 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.7457e-09) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.5161e-16) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY2" for ibody=24 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.0326e-09) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 7.4123e-17) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ2" for ibody=24 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 5.4180e-10) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.8012e-17) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX3" for ibody=24 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.6073e-09) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.1708e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY3" for ibody=24 d(Face)/d(DY3) check complete with 0 total errors (errmax= 8.6724e-10) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 7.4123e-17) d(Node)/d(DY3) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ3" for ibody=24 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.9131e-10) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 2.2674e-17) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "S1" for ibody=24 d(Face)/d(S1) check complete with 0 total errors (errmax= 2.4662e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.1540e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "S2" for ibody=24 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.4757e-09) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.4247e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.321 sec Sensitivity checks complete with 0 total errors (max geom err= 7.0497e-09) with 0 suppressions real 0m6.802s user 0m6.422s sys 0m0.312s ++ set +x -------------------------------------------------------------------------------------------------- ( 175 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "X0" for ibody=24 d(Face)/d(X0) check complete with 0 total errors (errmax= 2.8793e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 6.6800e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.5925e-09) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "Y0" for ibody=24 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.1128e-09) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.1989e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 1.0542e-09) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "Z0" for ibody=24 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.0462e-09) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.3619e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 3.5609e-09) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "L" for ibody=24 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9614e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4192e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 7.0497e-09) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "H" for ibody=24 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0314e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.2214e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 5.8217e-09) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX1" for ibody=24 d(Face)/d(DX1) check complete with 0 total errors (errmax= 1.9038e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 5.2382e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY1" for ibody=24 d(Face)/d(DY1) check complete with 0 total errors (errmax= 1.9233e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 5.3254e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ1" for ibody=24 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 4.8822e-08) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 3.6777e-13) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX2" for ibody=24 d(Face)/d(DX2) check complete with 0 total errors (errmax= 6.2594e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 3.7927e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY2" for ibody=24 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.0923e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 3.6890e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ2" for ibody=24 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 3.7191e-08) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.0366e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DX3" for ibody=24 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.2351e-08) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.8293e-14) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DY3" for ibody=24 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.0900e-08) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.5520e-14) d(Node)/d(DY3) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "DZ3" for ibody=24 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 1.6279e-08) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 4.4955e-14) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "S1" for ibody=24 d(Face)/d(S1) check complete with 0 total errors (errmax= 1.9275e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.7056e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=24 Computing finite difference sensitivities for ibody=24 Comparing geometric sensitivities wrt "S2" for ibody=24 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.7126e-09) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.7680e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.169 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2594e-08) with 0 suppressions real 0m15.621s user 0m14.634s sys 0m0.326s ++ set +x -------------------------------------------------------------------------------------------------- ( 176 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "X0" for ibody=30 d(Face)/d(X0) check complete with 0 total errors (errmax= 3.5620e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 9.3801e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 2.5925e-09) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "Y0" for ibody=30 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.2081e-09) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 9.6655e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 1.0542e-09) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "Z0" for ibody=30 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.3017e-09) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.3619e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 3.5609e-09) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "L" for ibody=30 d(Face)/d(L) check complete with 0 total errors (errmax= 3.3694e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4192e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 7.0497e-09) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "H" for ibody=30 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0983e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.2214e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 5.8217e-09) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DX1" for ibody=30 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.1624e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 4.1079e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DY1" for ibody=30 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.1458e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 4.1212e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DZ1" for ibody=30 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.5466e-08) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 6.1172e-14) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DX2" for ibody=30 d(Face)/d(DX2) check complete with 0 total errors (errmax= 6.1523e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 2.1424e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DY2" for ibody=30 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.2189e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 2.1508e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DZ2" for ibody=30 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 5.8658e-08) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.9727e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DX3" for ibody=30 d(Face)/d(DX3) check complete with 0 total errors (errmax= 3.1319e-09) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 6.6835e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DY3" for ibody=30 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.8252e-09) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 3.0131e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "DZ3" for ibody=30 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.0728e-09) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.0732e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "S1" for ibody=30 d(Face)/d(S1) check complete with 0 total errors (errmax= 2.1328e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.6326e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=30 Computing finite difference sensitivities for ibody=30 Comparing geometric sensitivities wrt "S2" for ibody=30 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.5219e-09) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.7397e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.196 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2189e-08) with 0 suppressions real 0m19.228s user 0m18.780s sys 0m0.280s ++ set +x -------------------------------------------------------------------------------------------------- ( 177 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "X0" for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 5.4532e-10) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(X0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Y0" for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Z0" for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "L" for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 5.4532e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.7257e-17) d(Node)/d(L) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "H" for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 5.4822e-10) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.1804e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 4.8421e-10) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX1" for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 6.1199e-10) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 7.8651e-18) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY1" for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 3.7107e-10) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 6.8143e-18) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ1" for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 6.8143e-18) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX2" for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 6.5789e-10) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 7.2483e-18) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY2" for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 3.4909e-10) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 6.8143e-18) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ2" for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 3.0382e-10) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 5.4511e-18) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX3" for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 6.1146e-10) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.7047e-17) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY3" for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 2.5640e-09) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 6.3582e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 1.5620e-09) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ3" for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 7.8348e-10) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 5.7087e-17) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S1" for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 1.6796e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 2.8558e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S2" for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 8.4805e-10) d(Edge)/d(S2) check complete with 0 total errors (errmax= 5.4514e-17) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.581 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5640e-09) with 0 suppressions real 0m3.698s user 0m3.106s sys 0m0.343s ++ set +x -------------------------------------------------------------------------------------------------- ( 178 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "X0" for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 1.4132e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 9.5621e-17) d(Node)/d(X0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Y0" for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 7.9437e-10) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 4.0055e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Z0" for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 5.3886e-17) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "L" for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 1.4132e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 9.5621e-17) d(Node)/d(L) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "H" for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 8.6340e-10) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.1265e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 4.8421e-10) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX1" for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 1.7454e-09) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 1.5161e-16) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY1" for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 6.9398e-10) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 2.3905e-17) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ1" for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 5.7863e-10) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 2.3905e-17) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX2" for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.7454e-09) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.5161e-16) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY2" for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.0544e-10) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.2773e-17) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ2" for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 5.4237e-10) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 1.3472e-17) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX3" for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.6071e-09) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.1708e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY3" for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 5.7466e-10) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.2773e-17) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ3" for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 5.1562e-10) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.3472e-17) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S1" for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 2.5558e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.0855e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S2" for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.5008e-09) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.0219e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.440 sec Sensitivity checks complete with 0 total errors (max geom err= 2.5558e-09) with 0 suppressions real 0m7.647s user 0m7.591s sys 0m0.307s ++ set +x -------------------------------------------------------------------------------------------------- ( 179 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "X0" for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 1.6465e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.2904e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Y0" for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 9.7206e-10) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.0360e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "Z0" for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 6.8823e-10) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.2227e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "L" for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 1.6465e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.2904e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "H" for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 8.9876e-10) d(Edge)/d(H) check complete with 0 total errors (errmax= 8.8937e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 4.8421e-10) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX1" for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 1.8994e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 5.2382e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY1" for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 1.9189e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 5.3254e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ1" for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 4.8794e-08) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 3.6777e-13) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX2" for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 6.2481e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 3.7587e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY2" for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.0968e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 3.7136e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ2" for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 3.7333e-08) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.0452e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DX3" for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.2378e-08) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.8345e-14) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DY3" for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.0951e-08) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.5520e-14) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "DZ3" for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 1.6283e-08) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 4.5577e-14) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S1" for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 1.9049e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 7.0521e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 Computing finite difference sensitivities for ibody=14 Comparing geometric sensitivities wrt "S2" for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.7053e-09) d(Edge)/d(S2) check complete with 0 total errors (errmax= 3.1718e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.859 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2481e-08) with 0 suppressions real 0m18.006s user 0m14.456s sys 0m0.302s ++ set +x -------------------------------------------------------------------------------------------------- ( 180 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "X0" for ibody=20 d(Face)/d(X0) check complete with 0 total errors (errmax= 1.8528e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.3168e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "Y0" for ibody=20 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.0464e-09) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 7.7985e-17) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "Z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "Z0" for ibody=20 d(Face)/d(Z0) check complete with 0 total errors (errmax= 6.9170e-10) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.0613e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "L" for ibody=20 d(Face)/d(L) check complete with 0 total errors (errmax= 1.8528e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.3168e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 5.4138e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "H" for ibody=20 d(Face)/d(H) check complete with 0 total errors (errmax= 7.9226e-10) d(Edge)/d(H) check complete with 0 total errors (errmax= 8.8937e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 4.8421e-10) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX1" for ibody=20 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.1389e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 4.0790e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY1" for ibody=20 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.1543e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 4.1721e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ1" for ibody=20 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.5526e-08) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 6.1172e-14) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX2" for ibody=20 d(Face)/d(DX2) check complete with 0 total errors (errmax= 6.1424e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 2.1330e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY2" for ibody=20 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.2002e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 2.1387e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ2" for ibody=20 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 5.8452e-08) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.9688e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DX3" for ibody=20 d(Face)/d(DX3) check complete with 0 total errors (errmax= 3.0387e-09) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 6.5843e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DY3" for ibody=20 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.8534e-09) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 3.6283e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "DZ3" for ibody=20 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.0232e-09) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.0010e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "S1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "S1" for ibody=20 d(Face)/d(S1) check complete with 0 total errors (errmax= 2.1234e-09) d(Edge)/d(S1) check complete with 0 total errors (errmax= 6.0427e-16) d(Node)/d(S1) check complete with 0 total errors (errmax= 1.8180e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=20 Computing finite difference sensitivities for ibody=20 Comparing geometric sensitivities wrt "S2" for ibody=20 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.5527e-09) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.3794e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 8.3089e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.953 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2002e-08) with 0 suppressions real 0m18.874s user 0m18.949s sys 0m0.380s ++ set +x -------------------------------------------------------------------------------------------------- ( 181 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Ytop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Ybot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.942 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m2.629s user 0m2.320s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 182 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Ytop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Ybot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.211 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m2.969s user 0m2.923s sys 0m0.306s ++ set +x -------------------------------------------------------------------------------------------------- ( 183 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Ytop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "Ybot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=25 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 10.163 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m13.860s user 0m11.045s sys 0m0.256s ++ set +x -------------------------------------------------------------------------------------------------- ( 184 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "Y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "Ytop" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "Ybot" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=31 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 9.624 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m11.540s user 0m11.008s sys 0m0.345s ++ set +x -------------------------------------------------------------------------------------------------- ( 185 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "X1" for ibody=21 d(Face)/d(X1) check complete with 0 total errors (errmax= 1.5064e-07) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.2042e-11) d(Node)/d(X1) check complete with 0 total errors (errmax= 3.6236e-07) ********************************************************* Starting geometric sensitivity wrt "R1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "R1" for ibody=21 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.9674e-07) d(Edge)/d(R1) check complete with 0 total errors (errmax= 2.0621e-11) d(Node)/d(R1) check complete with 0 total errors (errmax= 4.7381e-07) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "X2" for ibody=21 d(Face)/d(X2) check complete with 0 total errors (errmax= 1.5052e-07) d(Edge)/d(X2) check complete with 0 total errors (errmax= 1.1990e-11) d(Node)/d(X2) check complete with 0 total errors (errmax= 3.6134e-07) ********************************************************* Starting geometric sensitivity wrt "R2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "R2" for ibody=21 d(Face)/d(R2) check complete with 0 total errors (errmax= 9.8469e-08) d(Edge)/d(R2) check complete with 0 total errors (errmax= 4.7683e-12) d(Node)/d(R2) check complete with 0 total errors (errmax= 2.3262e-07) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX1" for ibody=21 d(Face)/d(DX1) check complete with 0 total errors (errmax= 3.5056e-10) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 6.4134e-18) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY1" for ibody=21 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.5798e-10) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 5.2997e-17) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ1" for ibody=21 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.9923e-10) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 3.2972e-18) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX2" for ibody=21 d(Face)/d(DX2) check complete with 0 total errors (errmax= 3.7049e-10) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 6.4134e-18) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY2" for ibody=21 d(Face)/d(DY2) check complete with 0 total errors (errmax= 2.6185e-10) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 5.2997e-17) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ2" for ibody=21 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 3.1559e-10) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 5.7304e-18) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX3" for ibody=21 d(Face)/d(DX3) check complete with 0 total errors (errmax= 2.9139e-10) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 3.0380e-18) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY3" for ibody=21 d(Face)/d(DY3) check complete with 0 total errors (errmax= 2.7424e-10) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.9755e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 8.4722e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ3" for ibody=21 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 3.1068e-10) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 3.9997e-18) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "S2" for ibody=21 d(Face)/d(S2) check complete with 0 total errors (errmax= 7.2747e-10) d(Edge)/d(S2) check complete with 0 total errors (errmax= 3.3105e-17) d(Node)/d(S2) check complete with 0 total errors (errmax= 7.6829e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.106 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7381e-07) with 0 suppressions real 0m2.979s user 0m2.643s sys 0m0.339s ++ set +x -------------------------------------------------------------------------------------------------- ( 186 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "X1" for ibody=21 d(Face)/d(X1) check complete with 0 total errors (errmax= 1.5097e-02) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.0257e-02) d(Node)/d(X1) check complete with 0 total errors (errmax= 3.6236e-07) ********************************************************* Starting geometric sensitivity wrt "R1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "R1" for ibody=21 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.7254e-02) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.3396e-02) d(Node)/d(R1) check complete with 0 total errors (errmax= 4.7381e-07) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "X2" for ibody=21 d(Face)/d(X2) check complete with 0 total errors (errmax= 1.5097e-02) d(Edge)/d(X2) check complete with 0 total errors (errmax= 1.0257e-02) d(Node)/d(X2) check complete with 0 total errors (errmax= 3.6134e-07) ********************************************************* Starting geometric sensitivity wrt "R2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "R2" for ibody=21 d(Face)/d(R2) check complete with 0 total errors (errmax= 6.6313e-03) d(Edge)/d(R2) check complete with 0 total errors (errmax= 1.9788e-03) d(Node)/d(R2) check complete with 0 total errors (errmax= 2.3262e-07) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX1" for ibody=21 d(Face)/d(DX1) check complete with 0 total errors (errmax= 4.1257e-10) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 6.9452e-18) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY1" for ibody=21 d(Face)/d(DY1) check complete with 0 total errors (errmax= 6.0103e-10) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 6.1150e-17) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ1" for ibody=21 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 4.6848e-10) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 3.7510e-16) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX2" for ibody=21 d(Face)/d(DX2) check complete with 0 total errors (errmax= 3.9357e-10) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 7.0775e-18) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY2" for ibody=21 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.0103e-10) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 6.1150e-17) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ2" for ibody=21 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 4.6848e-10) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.7510e-16) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX3" for ibody=21 d(Face)/d(DX3) check complete with 0 total errors (errmax= 3.5704e-10) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 4.8865e-18) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY3" for ibody=21 d(Face)/d(DY3) check complete with 0 total errors (errmax= 4.2416e-10) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 5.3281e-17) d(Node)/d(DY3) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ3" for ibody=21 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.8684e-10) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 3.7510e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "S2" for ibody=21 d(Face)/d(S2) check complete with 0 total errors (errmax= 5.6870e-10) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.2754e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 7.6829e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 6.341 sec Sensitivity checks complete with 112 total errors (max geom err= 1.7254e-02) with 0 suppressions real 0m16.436s user 0m15.874s sys 0m0.372s ++ set +x -------------------------------------------------------------------------------------------------- ( 187 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "X1" for ibody=21 d(Face)/d(X1) check complete with 0 total errors (errmax= 1.4885e-02) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.0257e-02) d(Node)/d(X1) check complete with 0 total errors (errmax= 3.6236e-07) ********************************************************* Starting geometric sensitivity wrt "R1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "R1" for ibody=21 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.7011e-02) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.3396e-02) d(Node)/d(R1) check complete with 0 total errors (errmax= 4.7381e-07) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "X2" for ibody=21 d(Face)/d(X2) check complete with 0 total errors (errmax= 1.4885e-02) d(Edge)/d(X2) check complete with 0 total errors (errmax= 1.0257e-02) d(Node)/d(X2) check complete with 0 total errors (errmax= 3.6134e-07) ********************************************************* Starting geometric sensitivity wrt "R2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "R2" for ibody=21 d(Face)/d(R2) check complete with 0 total errors (errmax= 6.4848e-03) d(Edge)/d(R2) check complete with 0 total errors (errmax= 1.9788e-03) d(Node)/d(R2) check complete with 0 total errors (errmax= 2.3262e-07) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX1" for ibody=21 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.0477e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 8.8277e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY1" for ibody=21 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.0427e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 8.8909e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ1" for ibody=21 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 5.7630e-08) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 6.8296e-13) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX2" for ibody=21 d(Face)/d(DX2) check complete with 0 total errors (errmax= 5.7623e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 6.4815e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY2" for ibody=21 d(Face)/d(DY2) check complete with 0 total errors (errmax= 4.2161e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 6.4149e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ2" for ibody=21 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 4.0152e-08) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.3685e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DX3" for ibody=21 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.1526e-08) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 2.9356e-14) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DY3" for ibody=21 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.1784e-08) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 3.0314e-14) d(Node)/d(DY3) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "DZ3" for ibody=21 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 1.6348e-08) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 6.8745e-14) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=21 Computing finite difference sensitivities for ibody=21 Comparing geometric sensitivities wrt "S2" for ibody=21 d(Face)/d(S2) check complete with 0 total errors (errmax= 5.7875e-10) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.2818e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 7.6829e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 5.051 sec Sensitivity checks complete with 48 total errors (max geom err= 1.7011e-02) with 0 suppressions real 0m22.530s user 0m19.818s sys 0m0.391s ++ set +x -------------------------------------------------------------------------------------------------- ( 188 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "X1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "X1" for ibody=27 d(Face)/d(X1) check complete with 0 total errors (errmax= 1.5033e-02) d(Edge)/d(X1) check complete with 0 total errors (errmax= 1.0257e-02) d(Node)/d(X1) check complete with 0 total errors (errmax= 3.6236e-07) ********************************************************* Starting geometric sensitivity wrt "R1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "R1" for ibody=27 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.7180e-02) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.3396e-02) d(Node)/d(R1) check complete with 0 total errors (errmax= 4.7381e-07) ********************************************************* Starting geometric sensitivity wrt "X2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "X2" for ibody=27 d(Face)/d(X2) check complete with 0 total errors (errmax= 1.5033e-02) d(Edge)/d(X2) check complete with 0 total errors (errmax= 1.0257e-02) d(Node)/d(X2) check complete with 0 total errors (errmax= 3.6134e-07) ********************************************************* Starting geometric sensitivity wrt "R2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "R2" for ibody=27 d(Face)/d(R2) check complete with 0 total errors (errmax= 6.5456e-03) d(Edge)/d(R2) check complete with 0 total errors (errmax= 1.9788e-03) d(Node)/d(R2) check complete with 0 total errors (errmax= 2.3262e-07) ********************************************************* Starting geometric sensitivity wrt "DX1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DX1" for ibody=27 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.5773e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 5.9862e-14) d(Node)/d(DX1) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DY1" for ibody=27 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.5761e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 5.9842e-14) d(Node)/d(DY1) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DZ1" for ibody=27 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 3.2067e-08) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 9.6828e-14) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DX2" for ibody=27 d(Face)/d(DX2) check complete with 0 total errors (errmax= 5.7463e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 2.8768e-13) d(Node)/d(DX2) check complete with 0 total errors (errmax= 2.7069e-10) ********************************************************* Starting geometric sensitivity wrt "DY2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DY2" for ibody=27 d(Face)/d(DY2) check complete with 0 total errors (errmax= 4.1439e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 2.9115e-13) d(Node)/d(DY2) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DZ2" for ibody=27 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 6.3070e-08) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.5647e-13) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "DX3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DX3" for ibody=27 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.0378e-09) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 8.0206e-17) d(Node)/d(DX3) check complete with 0 total errors (errmax= 2.4210e-10) ********************************************************* Starting geometric sensitivity wrt "DY3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DY3" for ibody=27 d(Face)/d(DY3) check complete with 0 total errors (errmax= 9.9064e-10) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 8.1518e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 7.5489e-10) ********************************************************* Starting geometric sensitivity wrt "DZ3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "DZ3" for ibody=27 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 1.1424e-09) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 3.7510e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 1.7805e-09) ********************************************************* Starting geometric sensitivity wrt "S2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=27 Computing finite difference sensitivities for ibody=27 Comparing geometric sensitivities wrt "S2" for ibody=27 d(Face)/d(S2) check complete with 0 total errors (errmax= 5.7172e-10) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.2752e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 7.6829e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.497 sec Sensitivity checks complete with 80 total errors (max geom err= 1.7180e-02) with 0 suppressions real 0m23.510s user 0m23.559s sys 0m0.320s ++ set +x -------------------------------------------------------------------------------------------------- ( 189 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP5a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "rad" for ibody=7 d(Face)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rad) check complete with 0 total errors (errmax= 2.0621e-18) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.6140e-10) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "rad" for ibody=12 d(Face)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.2213e-07) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xcut" for ibody=7 d(Face)/d(xcut) check complete with 0 total errors (errmax= 9.4993e-11) d(Edge)/d(xcut) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(xcut) check complete with 0 total errors (errmax= 1.6140e-10) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xcut" for ibody=12 d(Face)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zcut" for ibody=7 d(Face)/d(zcut) check complete with 0 total errors (errmax= 9.4993e-11) d(Edge)/d(zcut) check complete with 0 total errors (errmax= 1.5003e-11) d(Node)/d(zcut) check complete with 0 total errors (errmax= 5.7740e-07) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zcut" for ibody=12 d(Face)/d(zcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(zcut) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xrod" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xrod" for ibody=7 d(Face)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "xrod" for ibody=12 d(Face)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xrod) check complete with 0 total errors (errmax= 4.9235e-18) d(Node)/d(xrod) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "zrod" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zrod" for ibody=7 d(Face)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "zrod" for ibody=12 d(Face)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zrod) check complete with 0 total errors (errmax= 4.9235e-18) d(Node)/d(zrod) check complete with 0 total errors (errmax= 8.8913e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.104 sec Sensitivity checks complete with 0 total errors (max geom err= 8.8913e-07) with 0 suppressions real 0m2.106s user 0m2.879s sys 0m1.039s ++ set +x -------------------------------------------------------------------------------------------------- ( 190 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP5b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "rad" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "rad" for ibody=10 d(Face)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rad) check complete with 0 total errors (errmax= 2.0621e-18) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.6140e-10) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "rad" for ibody=15 d(Face)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.2213e-07) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xcut" for ibody=10 d(Face)/d(xcut) check complete with 0 total errors (errmax= 9.4993e-11) d(Edge)/d(xcut) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(xcut) check complete with 0 total errors (errmax= 1.6140e-10) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "xcut" for ibody=15 d(Face)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "zcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zcut" for ibody=10 d(Face)/d(zcut) check complete with 0 total errors (errmax= 9.4993e-11) d(Edge)/d(zcut) check complete with 0 total errors (errmax= 1.5003e-11) d(Node)/d(zcut) check complete with 0 total errors (errmax= 5.7740e-07) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "zcut" for ibody=15 d(Face)/d(zcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zcut) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(zcut) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "xrod" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xrod" for ibody=10 d(Face)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "xrod" for ibody=15 d(Face)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(xrod) check complete with 0 total errors (errmax= 4.9235e-18) d(Node)/d(xrod) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "zrod" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zrod" for ibody=10 d(Face)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=15 Computing finite difference sensitivities for ibody=15 Comparing geometric sensitivities wrt "zrod" for ibody=15 d(Face)/d(zrod) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zrod) check complete with 0 total errors (errmax= 4.9235e-18) d(Node)/d(zrod) check complete with 0 total errors (errmax= 8.8913e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.091 sec Sensitivity checks complete with 0 total errors (max geom err= 8.8913e-07) with 0 suppressions real 0m2.050s user 0m2.666s sys 0m1.010s ++ set +x -------------------------------------------------------------------------------------------------- ( 191 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designQ1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "L1" for ibody=6 d(Face)/d(L1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L1) check complete with 0 total errors (errmax= 4.9715e-17) d(Node)/d(L1) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "L2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "L2" for ibody=6 d(Face)/d(L2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L2) check complete with 0 total errors (errmax= 1.0365e-16) d(Node)/d(L2) check complete with 0 total errors (errmax= 2.0512e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.000 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0512e-09) with 0 suppressions real 0m0.397s user 0m0.152s sys 0m0.245s ++ set +x -------------------------------------------------------------------------------------------------- ( 192 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designQ2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "L1" for ibody=6 d(Face)/d(L1) check complete with 0 total errors (errmax= 1.2358e-09) d(Edge)/d(L1) check complete with 0 total errors (errmax= 1.2301e-16) d(Node)/d(L1) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "L2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "L2" for ibody=6 d(Face)/d(L2) check complete with 0 total errors (errmax= 1.0660e-09) d(Edge)/d(L2) check complete with 0 total errors (errmax= 1.8933e-16) d(Node)/d(L2) check complete with 0 total errors (errmax= 2.0512e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.001 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0512e-09) with 0 suppressions real 0m0.496s user 0m0.232s sys 0m0.264s ++ set +x -------------------------------------------------------------------------------------------------- ( 193 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.1866e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5038e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.9507e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 8.1877e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.1578e-15) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.3060e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5698e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.2086e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5285e-17) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.0190e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5184e-14) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.0541e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.2023e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.7974e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2848e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1860e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3092e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.2526e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.045 sec Sensitivity checks complete with 0 total errors (max geom err= 3.7974e-13) with 0 suppressions real 0m1.110s user 0m0.825s sys 0m0.297s ++ set +x -------------------------------------------------------------------------------------------------- ( 194 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.9334e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.5699e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9358e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.2173e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.7458e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 8.5090e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3640e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3248e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.3122e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=1 d(Face)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(poly) check complete with 0 total errors (errmax= 9.7404e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.010 sec Sensitivity checks complete with 0 total errors (max geom err= 3.2049e-11) with 0 suppressions real 0m0.403s user 0m0.157s sys 0m0.246s ++ set +x -------------------------------------------------------------------------------------------------- ( 195 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,1]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.3546e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.2131e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,2]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.4948e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,3]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.1259e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,4]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.9877e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,5]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.7837e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 9.6016e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,6]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.7077e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6731e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,7]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5388e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 4.1461e-15) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,8]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0124e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9653e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,9]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.6315e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 4.6812e-14) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.027 sec Sensitivity checks complete with 0 total errors (max geom err= 5.3546e-09) with 0 suppressions real 0m0.852s user 0m0.590s sys 0m0.271s ++ set +x -------------------------------------------------------------------------------------------------- ( 196 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,1]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.3894e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6767e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,2]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8918e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,3]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5392e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,4]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.3209e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,5]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0207e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,6]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.6760e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,7]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9633e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,8]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.5210e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,9]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.6166e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9937e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.009 sec Sensitivity checks complete with 0 total errors (max geom err= 4.3894e-10) with 0 suppressions real 0m0.412s user 0m0.120s sys 0m0.292s ++ set +x -------------------------------------------------------------------------------------------------- ( 197 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0e.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,1]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.2654e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6854e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,2]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.5093e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,3]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.8432e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,4]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5573e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,5]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.1637e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 1.5861e-13) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,6]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.7116e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,7]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1730e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,8]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.4054e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "param[1,9]" for ibody=1 d(Face)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.5108e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9060e-11) ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ztail[1,1]" for ibody=1 d(Face)/d(ztail) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 2.4082e-21) d(Node)/d(ztail) check complete with 0 total errors (errmax= 4.2414e-13) ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "ztail[1,2]" for ibody=1 d(Face)/d(ztail) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 4.8264e-22) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.4257e-12) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.033 sec Sensitivity checks complete with 0 total errors (max geom err= 5.2654e-09) with 0 suppressions real 0m0.923s user 0m0.663s sys 0m0.271s ++ set +x -------------------------------------------------------------------------------------------------- ( 198 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9574e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.4220e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.7980e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5038e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.4525e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.8215e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.3276e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.5026e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.1578e-15) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.2811e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.3246e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5698e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.2687e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.9173e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5285e-17) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.9466e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.9449e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5184e-14) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.9260e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.7338e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.9194e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.2791e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.7974e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.9187e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 8.9011e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1860e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.9187e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 8.2627e-21) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.2526e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.568 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m3.030s user 0m3.691s sys 0m0.272s ++ set +x -------------------------------------------------------------------------------------------------- ( 199 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 8.5711e-12) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9184e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2981e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8470e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.3576e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3730e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1982e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.0261e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2009e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3475e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1430e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.0849e-20) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0867e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9413e-19) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0774e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9413e-19) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0995e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9413e-19) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0480e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9413e-19) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0770e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9413e-19) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.335 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.770s user 0m1.123s sys 0m0.277s ++ set +x -------------------------------------------------------------------------------------------------- ( 200 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9965e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,1]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 6.1168e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.6611e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.2131e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,2]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.6084e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7292e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,3]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.6916e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0935e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,4]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 9.8380e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.8505e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,5]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 8.6733e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.3839e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 9.6016e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,6]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 4.9688e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3426e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6731e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,7]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 7.7970e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0022e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 4.1461e-15) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,8]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 9.5280e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.3752e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9653e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,9]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 4.6165e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.8358e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 4.6812e-14) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.538 sec Sensitivity checks complete with 0 total errors (max geom err= 6.1168e-06) with 0 suppressions real 0m3.599s user 0m3.579s sys 0m0.296s ++ set +x -------------------------------------------------------------------------------------------------- ( 201 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 5.7886e-14) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.7093e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,1]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.7738e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.1709e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6767e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,2]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.1679e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.4123e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,3]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0178e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.1478e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,4]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 5.3911e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0057e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,5]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.7062e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.0531e-22) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,6]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4790e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.3514e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,7]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 4.3888e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0051e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,8]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 4.1046e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.1350e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,9]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4166e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.0144e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9937e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.162 sec Sensitivity checks complete with 0 total errors (max geom err= 1.7738e-06) with 0 suppressions real 0m1.046s user 0m0.690s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 202 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1e.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "span" for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.8793e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,1]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 6.2087e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.6554e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6854e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,2]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.7547e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7364e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,3]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.6578e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0935e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,4]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 9.5118e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.8505e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,5]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 6.3748e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8995e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 1.5861e-13) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,6]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 5.1654e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3445e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,7]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 6.3067e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0051e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,8]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 7.3013e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.1350e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "param[1,9]" for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 5.1319e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.6913e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9060e-11) ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "ztail[1,1]" for ibody=2 d(Face)/d(ztail) check complete with 0 total errors (errmax= 4.8021e-12) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 1.2283e-21) d(Node)/d(ztail) check complete with 0 total errors (errmax= 4.2414e-13) ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "ztail[1,2]" for ibody=2 d(Face)/d(ztail) check complete with 0 total errors (errmax= 3.9651e-12) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 3.8416e-22) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.4257e-12) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.824 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2087e-06) with 0 suppressions real 0m3.830s user 0m4.336s sys 0m0.356s ++ set +x -------------------------------------------------------------------------------------------------- ( 203 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "span" for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9642e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1004e-05) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9618e-09) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5038e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.6872e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 4.1908e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.0061e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3486e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.1578e-15) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.3313e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.0399e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5698e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6626e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.5901e-14) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5285e-17) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1005e-05) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9634e-09) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5184e-14) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0987e-07) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.1834e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 8.2245e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.6321e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.7974e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.4726e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.9363e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1860e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.7311e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.3131e-14) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.2526e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 5.489 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1005e-05) with 0 suppressions real 0m13.702s user 0m14.706s sys 0m0.323s ++ set +x -------------------------------------------------------------------------------------------------- ( 204 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "span" for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 2.0007e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.6956e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.1469e-09) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.5368e-16) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.8576e-09) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.1717e-16) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2741e-09) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.3772e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 8.4808e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3948e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 4.2472e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9333e-18) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.1471e-09) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.5358e-16) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.8585e-09) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.1676e-16) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2750e-09) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.3474e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 8.4835e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3840e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 4.2442e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9787e-18) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.2049e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.988 sec Sensitivity checks complete with 0 total errors (max geom err= 2.1471e-09) with 0 suppressions real 0m4.503s user 0m4.291s sys 0m0.264s ++ set +x -------------------------------------------------------------------------------------------------- ( 205 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "span" for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.0440e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,1]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 6.1185e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.6617e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.2131e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,2]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.6089e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7299e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,3]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 4.9021e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2189e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,4]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2964e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1095e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,5]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.1247e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8636e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 9.6016e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,6]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 4.9961e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3555e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6731e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,7]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 4.1938e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.9994e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 4.1461e-15) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,8]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.8732e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8228e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9653e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,9]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0973e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8061e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 4.6812e-14) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 3.908 sec Sensitivity checks complete with 0 total errors (max geom err= 6.1185e-06) with 0 suppressions real 0m9.776s user 0m10.270s sys 0m0.252s ++ set +x -------------------------------------------------------------------------------------------------- ( 206 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "span" for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 4.3140e-13) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.4865e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,1]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.7738e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.1709e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6767e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,2]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.1680e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.4124e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,3]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.2933e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.4779e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,4]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 5.6666e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0601e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,5]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.6910e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.0813e-22) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,6]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4790e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.3514e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,7]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 5.0886e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0051e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,8]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 4.1108e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.1350e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,9]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4544e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.0144e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9937e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.719 sec Sensitivity checks complete with 0 total errors (max geom err= 1.7738e-06) with 0 suppressions real 0m5.011s user 0m3.732s sys 0m0.276s ++ set +x -------------------------------------------------------------------------------------------------- ( 207 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2e.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "span" for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9251e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,1]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 6.2109e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.6560e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6854e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,2]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.7553e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7370e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,3]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 5.2774e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.5149e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,4]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2796e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.5940e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,5]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 9.0969e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.2277e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 1.5861e-13) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,6]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 5.1958e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3570e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,7]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 4.4326e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.7938e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,8]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.9728e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5487e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "param[1,9]" for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 6.3687e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.4503e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9060e-11) ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "ztail[1,1]" for ibody=5 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.8738e-07) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 2.8214e-12) d(Node)/d(ztail) check complete with 0 total errors (errmax= 4.2414e-13) ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "ztail[1,2]" for ibody=5 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.8093e-07) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 3.1306e-12) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.4257e-12) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 6.497 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2109e-06) with 0 suppressions real 0m15.089s user 0m15.803s sys 0m0.315s ++ set +x -------------------------------------------------------------------------------------------------- ( 208 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "span" for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.3586e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1004e-05) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9618e-09) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5038e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.6871e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 4.1908e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.0060e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3486e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.1578e-15) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.3311e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.0399e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5698e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6625e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.5901e-14) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5285e-17) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1005e-05) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9634e-09) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5184e-14) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0987e-07) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.1834e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 8.2246e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.6321e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.7974e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.4726e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.9363e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1860e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.7312e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.3131e-14) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.2526e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 5.628 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1005e-05) with 0 suppressions real 0m17.958s user 0m17.018s sys 0m0.398s ++ set +x -------------------------------------------------------------------------------------------------- ( 209 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "span" for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.3586e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "poly[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,1]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1004e-05) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9618e-09) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5038e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,2]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.6871e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 4.1908e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,3]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.0060e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3486e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.1578e-15) ********************************************************* Starting geometric sensitivity wrt "poly[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,4]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.3311e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.0399e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5698e-13) ********************************************************* Starting geometric sensitivity wrt "poly[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[1,5]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6625e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.5901e-14) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5285e-17) ********************************************************* Starting geometric sensitivity wrt "poly[2,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,1]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1005e-05) d(Edge)/d(poly) check complete with 0 total errors (errmax= 5.9634e-09) d(Node)/d(poly) check complete with 0 total errors (errmax= 2.5184e-14) ********************************************************* Starting geometric sensitivity wrt "poly[2,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,2]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.0987e-07) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.1834e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.0353e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,3]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 8.2246e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.6321e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 3.7974e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,4]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.4726e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.9363e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1860e-13) ********************************************************* Starting geometric sensitivity wrt "poly[2,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "poly[2,5]" for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.7312e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.3131e-14) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.2526e-13) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 4.586 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1005e-05) with 0 suppressions real 0m12.723s user 0m13.332s sys 0m0.284s ++ set +x -------------------------------------------------------------------------------------------------- ( 210 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "span" for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.6265e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,1]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 6.1185e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.6617e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.2131e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,2]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.6089e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7299e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,3]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 4.9021e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2189e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,4]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2964e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1094e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,5]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.1248e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8636e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 9.6016e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,6]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 4.9961e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3555e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6731e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,7]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 4.1938e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.9994e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 4.1461e-15) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,8]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.8732e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8230e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9653e-14) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,9]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0973e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.8061e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 4.6812e-14) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 4.634 sec Sensitivity checks complete with 0 total errors (max geom err= 6.1185e-06) with 0 suppressions real 0m14.289s user 0m13.557s sys 0m0.278s ++ set +x -------------------------------------------------------------------------------------------------- ( 211 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3d.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "span" for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 4.8673e-13) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.0690e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,1]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.7738e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.1709e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6767e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,2]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.1680e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.4124e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,3]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.2986e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.5247e-20) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,4]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 5.6219e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0353e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,5]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.8512e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.3988e-22) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,6]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4790e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.3513e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,7]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 5.0677e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0051e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,8]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 4.0968e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.1350e-18) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,9]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4631e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.0144e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9937e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.703 sec Sensitivity checks complete with 0 total errors (max geom err= 1.7738e-06) with 0 suppressions real 0m4.835s user 0m4.637s sys 0m0.283s ++ set +x -------------------------------------------------------------------------------------------------- ( 212 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3e.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "span" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "span" for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.4362e-18) d(Node)/d(span) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,1]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 6.2109e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.6560e-09) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6854e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,2]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.7553e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7371e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4041e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,3]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,3]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 5.2774e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.5148e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 2.4053e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,4]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,4]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2796e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.5931e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6020e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,5]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,5]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 8.7920e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.2833e-21) d(Node)/d(param) check complete with 0 total errors (errmax= 1.5861e-13) ********************************************************* Starting geometric sensitivity wrt "param[1,6]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,6]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 5.1959e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3570e-13) d(Node)/d(param) check complete with 0 total errors (errmax= 5.6087e-11) ********************************************************* Starting geometric sensitivity wrt "param[1,7]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,7]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 4.4325e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 7.7938e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 1.7825e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,8]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,8]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.9728e-09) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5486e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.9430e-10) ********************************************************* Starting geometric sensitivity wrt "param[1,9]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "param[1,9]" for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 6.3831e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.4645e-19) d(Node)/d(param) check complete with 0 total errors (errmax= 3.9060e-11) ********************************************************* Starting geometric sensitivity wrt "ztail[1,1]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ztail[1,1]" for ibody=7 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.8738e-07) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 2.8214e-12) d(Node)/d(ztail) check complete with 0 total errors (errmax= 4.2414e-13) ********************************************************* Starting geometric sensitivity wrt "ztail[1,2]" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "ztail[1,2]" for ibody=7 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.8093e-07) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 3.1306e-12) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.4257e-12) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 4.899 sec Sensitivity checks complete with 0 total errors (max geom err= 6.2109e-06) with 0 suppressions real 0m13.507s user 0m12.988s sys 0m0.315s ++ set +x -------------------------------------------------------------------------------------------------- ( 213 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designS1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "dx" for ibody=6 d(Face)/d(dx) check complete with 0 total errors (errmax= 8.8249e-11) d(Edge)/d(dx) check complete with 0 total errors (errmax= 8.4015e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.882 sec Sensitivity checks complete with 0 total errors (max geom err= 4.3209e-10) with 0 suppressions real 0m5.739s user 0m5.684s sys 0m0.296s ++ set +x -------------------------------------------------------------------------------------------------- ( 214 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designS2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dx" for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 8.4015e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting geometric sensitivity wrt "scale" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=5 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 2.700 sec Sensitivity checks complete with 0 total errors (max geom err= 4.3209e-10) with 0 suppressions real 0m5.491s user 0m4.961s sys 0m0.300s ++ set +x -------------------------------------------------------------------------------------------------- ( 215 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designS3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) Body x: -5.00000 5.00000 y: -3.00000 3.00000 z: -3.00000 3.00000 Node 1 x: 2.95804 y: -0.00000 z: -0.50000 Node 2 x: 5.00000 y: -0.00000 z: -0.50000 Node 3 x: 2.95804 y: -0.00000 z: 0.50000 Node 4 x: 5.00000 y: 0.00000 z: 0.50000 Node 5 x: 0.00000 y: -0.00000 z: 3.00000 Node 6 x: 0.00000 y: -0.00000 z: -3.00000 Node 7 x: -2.95804 y: 0.00000 z: -0.50000 Node 8 x: -2.95804 y: 0.00000 z: 0.50000 Node 9 x: -5.00000 y: -0.00000 z: -0.50000 Node 10 x: -5.00000 y: 0.00000 z: 0.50000 Edge 1 x: 2.95804 5.00000 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 2 x: 2.95804 2.95804 y: -0.50000 -0.00000 z: -0.50000 0.50000 Edge 3 x: 2.95804 5.00000 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 4 x: 5.00000 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 5 x: 5.00000 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 6 x: 2.95804 2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 7 x: 0.00000 2.95804 y: -0.00000 -0.00000 z: 0.50000 3.00000 Edge 8 x: -0.00000 2.95804 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 9 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 10 x: -2.95804 0.00000 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 11 x: -2.95804 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 12 x: -2.95804 0.00000 y: -0.00000 0.00000 z: 0.50000 3.00000 Edge 13 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 14 x: -2.95804 -2.95804 y: 0.00000 0.50000 z: -0.50000 0.50000 Edge 15 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 16 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 17 x: -5.00000 -2.95804 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 18 x: -5.00000 -5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 19 x: -5.00000 -2.95804 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 20 x: -5.00000 -5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 1 x: 2.95804 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 2 x: 2.95804 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 3 x: -2.95804 2.95804 y: -3.00000 0.00000 z: -3.00000 3.00000 Face 4 x: 5.00000 5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Face 5 x: -2.95804 2.95804 y: -0.00000 3.00000 z: -3.00000 3.00000 Face 6 x: -5.00000 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 7 x: -5.00000 -2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 8 x: -5.00000 -5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Body 4 _body = 4 _brch = 5 inode nedge ibody x y z 1 4 4 2.95804 -0.00000 -0.50000 Edges -> 1 2 6 8 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 1 4 1 _nodeID = 1 2 3 4 5.00000 -0.00000 -0.50000 Edges -> 1 4 5 Faces -> 1 2 4 __trace__ = 1 1 3 2 4 2 _nedge = 3 _nodeID = 2 3 4 4 2.95804 -0.00000 0.50000 Edges -> 2 3 6 7 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 3 4 3 _nodeID = 3 4 3 4 5.00000 0.00000 0.50000 Edges -> 3 4 5 Faces -> 1 2 4 __trace__ = 1 2 3 4 4 4 _nedge = 3 _nodeID = 4 5 4 4 0.00000 -0.00000 3.00000 Edges -> 7 12 13 16 Faces -> 3 5 __trace__ = 2 1 3 5 4 5 _nedge = 4 _nodeID = 5 6 4 4 0.00000 -0.00000 -3.00000 Edges -> 8 9 10 15 Faces -> 3 5 __trace__ = 2 2 3 6 4 6 _nedge = 4 _nodeID = 6 7 4 4 -2.95804 0.00000 -0.50000 Edges -> 10 11 14 17 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 7 4 7 _nodeID = 7 8 4 4 -2.95804 0.00000 0.50000 Edges -> 11 12 14 19 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 8 4 8 _nodeID = 8 9 3 4 -5.00000 -0.00000 -0.50000 Edges -> 17 18 20 Faces -> 6 7 8 __trace__ = 1 4 3 9 4 9 _nedge = 3 _nodeID = 9 10 3 4 -5.00000 0.00000 0.50000 Edges -> 18 19 20 Faces -> 6 7 8 __trace__ = 1 3 3 10 4 10 _nedge = 3 _nodeID = 10 iedge ibeg iend ileft irite nface ibody iford imark trange[0] trange[1] length 1 1 2 1 2 2 4 30004 -1 7.95804 10.00000 2.04196 5618109a5910 Nodes -> 1 2 Faces -> 1 2 _body = 4 30004 __trace__ = 1 4 3 1 4 1 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 3 2 3 1 1 3 2 4 30001 -1 0.00000 3.14159 1.57080 5618109e7200 Nodes -> 3 1 Faces -> 1 3 _body = 4 30001 _nface = 2 __trace__ = 3 2 4 2 _edgeID = 1 3 2 1 2 3 3 4 2 1 2 4 40003 -1 7.95804 10.00000 2.04196 5618109e7240 Nodes -> 3 4 Faces -> 1 2 _body = 4 40003 __trace__ = 1 2 3 3 4 3 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 4 4 4 2 4 1 2 4 20003 -1 0.00000 3.14159 1.57080 5618109e7280 Nodes -> 2 4 Faces -> 1 4 __trace__ = 1 1 3 4 4 4 _body = 4 20003 _nface = 2 _edgeID = 1 2 1 3 1 5 2 4 4 2 2 4 20004 -1 3.14159 6.28319 1.57080 5618109e72c0 Nodes -> 4 2 Faces -> 2 4 __trace__ = 1 6 3 5 4 5 _body = 4 20004 _nface = 2 _edgeID = 1 2 1 4 1 6 1 3 2 5 2 4 40002 -1 3.14159 6.28319 1.57080 5618109e7300 Nodes -> 1 3 Faces -> 2 5 _body = 4 40002 _nface = 2 __trace__ = 3 6 4 6 _edgeID = 1 4 2 2 2 7 3 5 3 5 2 4 10002 -1 6.45063 7.85398 4.21004 5618109e7340 Nodes -> 3 5 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 7 4 7 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 4 8 6 1 3 5 2 4 10002 -1 4.71239 6.11574 4.21004 5618109e7380 Nodes -> 6 1 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 8 4 8 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 3 9 6 6 3 -1 (degenerate) 10 6 7 5 3 2 4 20001 -1 -1.57080 -0.16745 4.21004 5618109e73c0 Nodes -> 6 7 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 10 4 10 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 1 11 8 7 3 6 2 4 10003 -1 -0.00000 3.14159 1.57080 5618109e7400 Nodes -> 8 7 Faces -> 3 6 _body = 4 10003 _nface = 2 __trace__ = 3 11 4 11 _edgeID = 1 3 2 1 1 12 8 5 5 3 2 4 20001 -1 0.16745 1.57080 4.21004 5618109e7440 Nodes -> 8 5 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 12 4 12 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 2 13 5 5 -1 3 (degenerate) 14 7 8 5 7 2 4 20004 -1 3.14159 6.28319 1.57080 5618109e7480 Nodes -> 7 8 Faces -> 5 7 _body = 4 20004 _nface = 2 __trace__ = 3 14 4 14 _edgeID = 1 4 2 2 1 15 6 6 5 -1 (degenerate) 16 5 5 -1 5 (degenerate) 17 9 7 6 7 2 4 30004 -1 0.00000 2.04196 2.04196 5618109e74c0 Nodes -> 9 7 Faces -> 6 7 _body = 4 30004 __trace__ = 1 4 3 17 4 17 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 1 18 10 9 6 8 2 4 30001 -1 0.00000 3.14159 1.57080 5618109e7500 Nodes -> 10 9 Faces -> 6 8 __trace__ = 1 3 3 18 4 18 _body = 4 30001 _nface = 2 _edgeID = 1 1 1 3 1 19 10 8 7 6 2 4 40003 -1 0.00000 2.04196 2.04196 5618109e7540 Nodes -> 10 8 Faces -> 6 7 _body = 4 40003 __trace__ = 1 2 3 19 4 19 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 2 20 9 10 7 8 2 4 40001 -1 3.14159 6.28319 1.57080 5618109e7580 Nodes -> 9 10 Faces -> 7 8 __trace__ = 1 5 3 20 4 20 _body = 4 40001 _nface = 2 _edgeID = 1 1 1 4 1 iface ibody iford imark uvrange 1 1 3 -1 0.00000 3.14159 7.95804 10.00000 5618109e8210 Nodes -> 1 2 3 4 Edges -> 1 2 3 4 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 1 4 1 __trimmed__ = 1 _faceID = 1 3 2 2 1 4 -1 3.14159 6.28319 7.95804 10.00000 5618109e8340 Nodes -> 1 2 4 3 Edges -> 1 5 3 6 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 2 4 2 __trimmed__ = 1 _faceID = 1 4 2 3 2 1 -1 3.14159 6.28319 -1.57080 1.57080 5618109e8470 Nodes -> 3 5 1 6 7 8 Edges -> 7 2 8 9 10 11 12 13 _body = 2 1 _brch = 2 1 _hist = 2 3 4 __trace__ = 2 1 3 3 4 3 __trimmed__ = 1 _faceID = 2 1 1 4 1 2 -1 -0.50000 0.50000 -0.50000 0.50000 5618109e8590 Nodes -> 2 4 Edges -> 4 5 _body = 1 2 _brch = 1 2 _hist = 1 3 4 __trace__ = 1 3 3 4 4 4 _faceID = 1 2 1 5 2 2 -1 0.00000 3.14159 -1.57080 1.57080 5618109e8630 Nodes -> 8 5 7 6 1 3 Edges -> 12 14 10 15 8 6 7 16 _body = 2 2 _brch = 2 2 _hist = 2 3 4 __trace__ = 2 2 3 5 4 5 __trimmed__ = 1 _faceID = 2 2 1 6 1 3 -1 -0.00000 3.14159 0.00000 2.04196 5618109e8810 Nodes -> 9 7 10 8 Edges -> 17 18 19 11 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 6 4 6 __trimmed__ = 1 _faceID = 1 3 1 7 1 4 -1 3.14159 6.28319 0.00000 2.04196 5618109e8a00 Nodes -> 9 7 8 10 Edges -> 17 14 19 20 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 7 4 7 __trimmed__ = 1 _faceID = 1 4 1 8 1 1 -1 -0.50000 0.50000 -0.50000 0.50000 5618109e8bf0 Nodes -> 10 9 Edges -> 18 20 _body = 1 1 _brch = 1 1 _hist = 1 3 4 __trace__ = 1 4 3 8 4 8 _color =red _faceID = 1 1 1 oclass0= 25 (body) mtype0= 9 (solidbody) obj=5618108d91a0, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=561810a11350, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=5618109f8d40, eref2=561810a13170 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a064d0, eref3=561810a13170 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a08280, eref4=561810a12120 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109fb380, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109a4390, eref4=561810a121e0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2ae0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109fb380, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618108d5460, eref4=561810a121a0 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2ae0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a082c0, eref4=561810a12160 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a11190, eref2=561810a13230 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a06510, eref3=561810a13230 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a08280, eref4=561810a12120 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109fb380, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109b0650, eref4=561810a12260 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618108d5460, eref4=561810a121a0 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2ae0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810983660, eref4=561810a12220 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109fb380, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2ae0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a111d0, eref2=561810a13360 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a06550, eref3=561810a13360 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a08df0, eref4=561810a122a0 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2e40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=5618109dfde0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2e40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109b0560, eref4=561810a123a0 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2e40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109b0520, eref4=561810a12360 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109cffb0, eref4=561810a12320 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d35f0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=5618109cff70, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d35f0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a08a40, eref4=561810a122e0 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d35f0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a082c0, eref4=561810a12160 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a11210, eref2=561810a13480 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=5618109f8c00, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109a4390, eref4=561810a121e0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2ae0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109fb380, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810983660, eref4=561810a12220 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109fb380, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2ae0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a11250, eref2=561810a13570 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=5618109f8c40, eref3=561810a13570 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109b0560, eref4=561810a123a0 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2e40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810a105b0, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2e40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a08df0, eref4=561810a122a0 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d2e40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109b0650, eref4=561810a12260 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e6580, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a08a40, eref4=561810a122e0 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d35f0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df350, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810a10570, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d35f0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109cffb0, eref4=561810a12320 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109d35f0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109dfe20, eref4=561810a123e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a11290, eref2=561810a13750 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=5618109f8c80, eref3=561810a13750 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a105f0, eref4=561810a12420 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df290, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109b0520, eref4=561810a12360 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a06450, eref4=561810a124a0 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109b6740, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a10630, eref4=561810a12460 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109b6740, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df290, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a112d0, eref2=561810a13940 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=5618109f8cc0, eref3=561810a13940 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a105f0, eref4=561810a12420 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df290, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a06490, eref4=561810a124e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df290, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109b6740, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a06450, eref4=561810a124a0 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109b6740, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=5618109dfe20, eref4=561810a123e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618108d5560, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109e71a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=561810a11310, eref2=561810a13b30 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=5618109f8d00, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a10630, eref4=561810a12460 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109b6740, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df290, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a06490, eref4=561810a124e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109df290, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=5618109b6740, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 ********************************************************* Starting geometric sensitivity wrt "len" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Body x: -5.00000 5.00000 y: -3.00000 3.00000 z: -3.00000 3.00000 Node 1 x: 2.95804 y: -0.00000 z: -0.50000 Node 2 x: 5.00000 y: -0.00000 z: -0.50000 Node 3 x: 2.95804 y: -0.00000 z: 0.50000 Node 4 x: 5.00000 y: 0.00000 z: 0.50000 Node 5 x: 0.00000 y: -0.00000 z: 3.00000 Node 6 x: 0.00000 y: -0.00000 z: -3.00000 Node 7 x: -2.95804 y: 0.00000 z: -0.50000 Node 8 x: -2.95804 y: 0.00000 z: 0.50000 Node 9 x: -5.00000 y: -0.00000 z: -0.50000 Node 10 x: -5.00000 y: 0.00000 z: 0.50000 Edge 1 x: 2.95804 5.00000 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 2 x: 2.95804 2.95804 y: -0.50000 -0.00000 z: -0.50000 0.50000 Edge 3 x: 2.95804 5.00000 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 4 x: 5.00000 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 5 x: 5.00000 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 6 x: 2.95804 2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 7 x: 0.00000 2.95804 y: -0.00000 -0.00000 z: 0.50000 3.00000 Edge 8 x: -0.00000 2.95804 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 9 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 10 x: -2.95804 0.00000 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 11 x: -2.95804 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 12 x: -2.95804 0.00000 y: -0.00000 0.00000 z: 0.50000 3.00000 Edge 13 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 14 x: -2.95804 -2.95804 y: 0.00000 0.50000 z: -0.50000 0.50000 Edge 15 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 16 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 17 x: -5.00000 -2.95804 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 18 x: -5.00000 -5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 19 x: -5.00000 -2.95804 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 20 x: -5.00000 -5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 1 x: 2.95804 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 2 x: 2.95804 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 3 x: -2.95804 2.95804 y: -3.00000 0.00000 z: -3.00000 3.00000 Face 4 x: 5.00000 5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Face 5 x: -2.95804 2.95804 y: -0.00000 3.00000 z: -3.00000 3.00000 Face 6 x: -5.00000 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 7 x: -5.00000 -2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 8 x: -5.00000 -5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Body 4 _body = 4 _brch = 5 inode nedge ibody x y z 1 4 4 2.95804 -0.00000 -0.50000 Edges -> 1 2 6 8 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 1 4 1 _nodeID = 1 2 3 4 5.00000 -0.00000 -0.50000 Edges -> 1 4 5 Faces -> 1 2 4 __trace__ = 1 1 3 2 4 2 _nedge = 3 _nodeID = 2 3 4 4 2.95804 -0.00000 0.50000 Edges -> 2 3 6 7 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 3 4 3 _nodeID = 3 4 3 4 5.00000 0.00000 0.50000 Edges -> 3 4 5 Faces -> 1 2 4 __trace__ = 1 2 3 4 4 4 _nedge = 3 _nodeID = 4 5 4 4 0.00000 -0.00000 3.00000 Edges -> 7 12 13 16 Faces -> 3 5 __trace__ = 2 1 3 5 4 5 _nedge = 4 _nodeID = 5 6 4 4 0.00000 -0.00000 -3.00000 Edges -> 8 9 10 15 Faces -> 3 5 __trace__ = 2 2 3 6 4 6 _nedge = 4 _nodeID = 6 7 4 4 -2.95804 0.00000 -0.50000 Edges -> 10 11 14 17 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 7 4 7 _nodeID = 7 8 4 4 -2.95804 0.00000 0.50000 Edges -> 11 12 14 19 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 8 4 8 _nodeID = 8 9 3 4 -5.00000 -0.00000 -0.50000 Edges -> 17 18 20 Faces -> 6 7 8 __trace__ = 1 4 3 9 4 9 _nedge = 3 _nodeID = 9 10 3 4 -5.00000 0.00000 0.50000 Edges -> 18 19 20 Faces -> 6 7 8 __trace__ = 1 3 3 10 4 10 _nedge = 3 _nodeID = 10 iedge ibeg iend ileft irite nface ibody iford imark trange[0] trange[1] length 1 1 2 1 2 2 4 30004 -1 7.95804 10.00000 2.04196 561810ac8d40 Nodes -> 1 2 Faces -> 1 2 _body = 4 30004 __trace__ = 1 4 3 1 4 1 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 3 2 3 1 1 3 2 4 30001 -1 0.00000 3.14159 1.57080 561810ac8d80 Nodes -> 3 1 Faces -> 1 3 _body = 4 30001 _nface = 2 __trace__ = 3 2 4 2 _edgeID = 1 3 2 1 2 3 3 4 2 1 2 4 40003 -1 7.95804 10.00000 2.04196 561810ac8dc0 Nodes -> 3 4 Faces -> 1 2 _body = 4 40003 __trace__ = 1 2 3 3 4 3 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 4 4 4 2 4 1 2 4 20003 -1 0.00000 3.14159 1.57080 561810ac8e00 Nodes -> 2 4 Faces -> 1 4 __trace__ = 1 1 3 4 4 4 _body = 4 20003 _nface = 2 _edgeID = 1 2 1 3 1 5 2 4 4 2 2 4 20004 -1 3.14159 6.28319 1.57080 561810ac8e40 Nodes -> 4 2 Faces -> 2 4 __trace__ = 1 6 3 5 4 5 _body = 4 20004 _nface = 2 _edgeID = 1 2 1 4 1 6 1 3 2 5 2 4 40002 -1 3.14159 6.28319 1.57080 561810ac8e80 Nodes -> 1 3 Faces -> 2 5 _body = 4 40002 _nface = 2 __trace__ = 3 6 4 6 _edgeID = 1 4 2 2 2 7 3 5 3 5 2 4 10002 -1 6.45063 7.85398 4.21004 561810ac8ec0 Nodes -> 3 5 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 7 4 7 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 4 8 6 1 3 5 2 4 10002 -1 4.71239 6.11574 4.21004 561810ac8f00 Nodes -> 6 1 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 8 4 8 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 3 9 6 6 3 -1 (degenerate) 10 6 7 5 3 2 4 20001 -1 -1.57080 -0.16745 4.21004 561810ac8f40 Nodes -> 6 7 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 10 4 10 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 1 11 8 7 3 6 2 4 10003 -1 -0.00000 3.14159 1.57080 561810ac8f80 Nodes -> 8 7 Faces -> 3 6 _body = 4 10003 _nface = 2 __trace__ = 3 11 4 11 _edgeID = 1 3 2 1 1 12 8 5 5 3 2 4 20001 -1 0.16745 1.57080 4.21004 561810ac8fc0 Nodes -> 8 5 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 12 4 12 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 2 13 5 5 -1 3 (degenerate) 14 7 8 5 7 2 4 20004 -1 3.14159 6.28319 1.57080 561810ac9000 Nodes -> 7 8 Faces -> 5 7 _body = 4 20004 _nface = 2 __trace__ = 3 14 4 14 _edgeID = 1 4 2 2 1 15 6 6 5 -1 (degenerate) 16 5 5 -1 5 (degenerate) 17 9 7 6 7 2 4 30004 -1 0.00000 2.04196 2.04196 561810ac9040 Nodes -> 9 7 Faces -> 6 7 _body = 4 30004 __trace__ = 1 4 3 17 4 17 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 1 18 10 9 6 8 2 4 30001 -1 0.00000 3.14159 1.57080 561810ac9080 Nodes -> 10 9 Faces -> 6 8 __trace__ = 1 3 3 18 4 18 _body = 4 30001 _nface = 2 _edgeID = 1 1 1 3 1 19 10 8 7 6 2 4 40003 -1 0.00000 2.04196 2.04196 561810ac90c0 Nodes -> 10 8 Faces -> 6 7 _body = 4 40003 __trace__ = 1 2 3 19 4 19 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 2 20 9 10 7 8 2 4 40001 -1 3.14159 6.28319 1.57080 561810ac9100 Nodes -> 9 10 Faces -> 7 8 __trace__ = 1 5 3 20 4 20 _body = 4 40001 _nface = 2 _edgeID = 1 1 1 4 1 iface ibody iford imark uvrange 1 1 3 -1 0.00000 3.14159 7.95804 10.00000 561810aa8f10 Nodes -> 1 2 3 4 Edges -> 1 2 3 4 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 1 4 1 __trimmed__ = 1 _faceID = 1 3 2 2 1 4 -1 3.14159 6.28319 7.95804 10.00000 561810aa8fd0 Nodes -> 1 2 4 3 Edges -> 1 5 3 6 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 2 4 2 __trimmed__ = 1 _faceID = 1 4 2 3 2 1 -1 3.14159 6.28319 -1.57080 1.57080 561810aa9100 Nodes -> 3 5 1 6 7 8 Edges -> 7 2 8 9 10 11 12 13 _body = 2 1 _brch = 2 1 _hist = 2 3 4 __trace__ = 2 1 3 3 4 3 __trimmed__ = 1 _faceID = 2 1 1 4 1 2 -1 -0.50000 0.50000 -0.50000 0.50000 561810aa9220 Nodes -> 2 4 Edges -> 4 5 _body = 1 2 _brch = 1 2 _hist = 1 3 4 __trace__ = 1 3 3 4 4 4 _faceID = 1 2 1 5 2 2 -1 0.00000 3.14159 -1.57080 1.57080 561810aa92c0 Nodes -> 8 5 7 6 1 3 Edges -> 12 14 10 15 8 6 7 16 _body = 2 2 _brch = 2 2 _hist = 2 3 4 __trace__ = 2 2 3 5 4 5 __trimmed__ = 1 _faceID = 2 2 1 6 1 3 -1 -0.00000 3.14159 0.00000 2.04196 561810aa94a0 Nodes -> 9 7 10 8 Edges -> 17 18 19 11 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 6 4 6 __trimmed__ = 1 _faceID = 1 3 1 7 1 4 -1 3.14159 6.28319 0.00000 2.04196 561810aa9690 Nodes -> 9 7 8 10 Edges -> 17 14 19 20 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 7 4 7 __trimmed__ = 1 _faceID = 1 4 1 8 1 1 -1 -0.50000 0.50000 -0.50000 0.50000 561810aa9880 Nodes -> 10 9 Edges -> 18 20 _body = 1 1 _brch = 1 1 _hist = 1 3 4 __trace__ = 1 4 3 8 4 8 _color =red _faceID = 1 1 1 oclass0= 25 (body) mtype0= 9 (solidbody) obj=561810aa7260, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=561810aebbf0, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aeb9f0, eref2=561810aedad0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb7f0, eref3=561810aedad0 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad29b0, eref4=561810aeca80 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419606085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad6c70, data5= 5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae3070, eref4=561810aecb40 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad7660, data5= 5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad6c70, data5= 5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae3030, eref4=561810aecb00 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419606085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad7660, data5= 5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae2ff0, eref4=561810aecac0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aeba30, eref2=561810aedb90 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb830, eref3=561810aedb90 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad29b0, eref4=561810aeca80 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419606085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad6c70, data5= 5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0de0, eref4=561810aecbc0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae3030, eref4=561810aecb00 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419606085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad7660, data5= 5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae30b0, eref4=561810aecb80 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad6c70, data5= 5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad7660, data5= 5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aeba70, eref2=561810aedc50 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb870, eref3=561810aedc50 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0e20, eref4=561810aecc00 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6d40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810acb150, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6d40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb110, eref4=561810aecd00 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6d40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb0d0, eref4=561810aeccc0 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0ee0, eref4=561810aecc80 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6b60, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810ae0ea0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6b60, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0e60, eref4=561810aecc40 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6b60, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae2ff0, eref4=561810aecac0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aebab0, eref2=561810aedd70 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb8b0, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae3070, eref4=561810aecb40 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad7660, data5= 5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad6c70, data5= 5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae30b0, eref4=561810aecb80 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad6c70, data5= 5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad7660, data5= 5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aebaf0, eref2=561810aede10 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb8f0, eref3=561810aede10 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb110, eref4=561810aecd00 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6d40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810acb210, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6d40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0e20, eref4=561810aecc00 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6d40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0de0, eref4=561810aecbc0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ad69a0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0e60, eref4=561810aecc40 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6b60, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acecf0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810acb1d0, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6b60, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae0ee0, eref4=561810aecc80 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6b60, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb190, eref4=561810aecd40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aebb30, eref2=561810aedff0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb930, eref3=561810aedff0 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb250, eref4=561810aecd80 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419611374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e420, data5= -5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb0d0, eref4=561810aeccc0 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeb770, eref4=561810aece00 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419611374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e460, data5= -5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeb730, eref4=561810aecdc0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e460, data5= -5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e420, data5= -5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aebb70, eref2=561810aee170 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb970, eref3=561810aee170 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb250, eref4=561810aecd80 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419611374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e420, data5= -5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeb7b0, eref4=561810aece40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e420, data5= -5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e460, data5= -5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeb770, eref4=561810aece00 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419611374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e460, data5= -5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acb190, eref4=561810aecd40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab7760, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa7fa0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=561810aebbb0, eref2=561810aee360 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aeb9b0, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeb730, eref4=561810aecdc0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e460, data5= -5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e420, data5= -5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeb7b0, eref4=561810aece40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e420, data5= -5.0000005000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8e460, data5= -5.0000005000e+00 1.2246467991e-16 5.0000000000e-01 Comparing geometric sensitivities wrt "len" for ibody=7 d(Face)/d(len) check complete with 0 total errors (errmax= 2.1604e-10) d(Edge)/d(len) check complete with 0 total errors (errmax= 2.1004e-18) d(Node)/d(len) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "Rcyl" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Body x: -5.00000 5.00000 y: -3.00000 3.00000 z: -3.00000 3.00000 Node 1 x: 2.95804 y: -0.00000 z: -0.50000 Node 2 x: 5.00000 y: -0.00000 z: -0.50000 Node 3 x: 2.95804 y: -0.00000 z: 0.50000 Node 4 x: 5.00000 y: 0.00000 z: 0.50000 Node 5 x: 0.00000 y: -0.00000 z: 3.00000 Node 6 x: 0.00000 y: -0.00000 z: -3.00000 Node 7 x: -2.95804 y: 0.00000 z: -0.50000 Node 8 x: -2.95804 y: 0.00000 z: 0.50000 Node 9 x: -5.00000 y: -0.00000 z: -0.50000 Node 10 x: -5.00000 y: 0.00000 z: 0.50000 Edge 1 x: 2.95804 5.00000 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 2 x: 2.95804 2.95804 y: -0.50000 -0.00000 z: -0.50000 0.50000 Edge 3 x: 2.95804 5.00000 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 4 x: 5.00000 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 5 x: 5.00000 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 6 x: 2.95804 2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 7 x: 0.00000 2.95804 y: -0.00000 -0.00000 z: 0.50000 3.00000 Edge 8 x: -0.00000 2.95804 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 9 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 10 x: -2.95804 0.00000 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 11 x: -2.95804 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 12 x: -2.95804 0.00000 y: -0.00000 0.00000 z: 0.50000 3.00000 Edge 13 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 14 x: -2.95804 -2.95804 y: 0.00000 0.50000 z: -0.50000 0.50000 Edge 15 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 16 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 17 x: -5.00000 -2.95804 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 18 x: -5.00000 -5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 19 x: -5.00000 -2.95804 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 20 x: -5.00000 -5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 1 x: 2.95804 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 2 x: 2.95804 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 3 x: -2.95804 2.95804 y: -3.00000 0.00000 z: -3.00000 3.00000 Face 4 x: 5.00000 5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Face 5 x: -2.95804 2.95804 y: -0.00000 3.00000 z: -3.00000 3.00000 Face 6 x: -5.00000 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 7 x: -5.00000 -2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 8 x: -5.00000 -5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Body 4 _body = 4 _brch = 5 inode nedge ibody x y z 1 4 4 2.95804 -0.00000 -0.50000 Edges -> 1 2 6 8 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 1 4 1 _nodeID = 1 2 3 4 5.00000 -0.00000 -0.50000 Edges -> 1 4 5 Faces -> 1 2 4 __trace__ = 1 1 3 2 4 2 _nedge = 3 _nodeID = 2 3 4 4 2.95804 -0.00000 0.50000 Edges -> 2 3 6 7 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 3 4 3 _nodeID = 3 4 3 4 5.00000 0.00000 0.50000 Edges -> 3 4 5 Faces -> 1 2 4 __trace__ = 1 2 3 4 4 4 _nedge = 3 _nodeID = 4 5 4 4 0.00000 -0.00000 3.00000 Edges -> 7 12 13 16 Faces -> 3 5 __trace__ = 2 1 3 5 4 5 _nedge = 4 _nodeID = 5 6 4 4 0.00000 -0.00000 -3.00000 Edges -> 8 9 10 15 Faces -> 3 5 __trace__ = 2 2 3 6 4 6 _nedge = 4 _nodeID = 6 7 4 4 -2.95804 0.00000 -0.50000 Edges -> 10 11 14 17 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 7 4 7 _nodeID = 7 8 4 4 -2.95804 0.00000 0.50000 Edges -> 11 12 14 19 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 8 4 8 _nodeID = 8 9 3 4 -5.00000 -0.00000 -0.50000 Edges -> 17 18 20 Faces -> 6 7 8 __trace__ = 1 4 3 9 4 9 _nedge = 3 _nodeID = 9 10 3 4 -5.00000 0.00000 0.50000 Edges -> 18 19 20 Faces -> 6 7 8 __trace__ = 1 3 3 10 4 10 _nedge = 3 _nodeID = 10 iedge ibeg iend ileft irite nface ibody iford imark trange[0] trange[1] length 1 1 2 1 2 2 4 30004 -1 7.95804 10.00000 2.04196 561810add1f0 Nodes -> 1 2 Faces -> 1 2 _body = 4 30004 __trace__ = 1 4 3 1 4 1 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 3 2 3 1 1 3 2 4 30001 -1 0.00000 3.14159 1.57080 561810adc8c0 Nodes -> 3 1 Faces -> 1 3 _body = 4 30001 _nface = 2 __trace__ = 3 2 4 2 _edgeID = 1 3 2 1 2 3 3 4 2 1 2 4 40003 -1 7.95804 10.00000 2.04196 561810adb9b0 Nodes -> 3 4 Faces -> 1 2 _body = 4 40003 __trace__ = 1 2 3 3 4 3 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 4 4 4 2 4 1 2 4 20003 -1 0.00000 3.14159 1.57080 561810add810 Nodes -> 2 4 Faces -> 1 4 __trace__ = 1 1 3 4 4 4 _body = 4 20003 _nface = 2 _edgeID = 1 2 1 3 1 5 2 4 4 2 2 4 20004 -1 3.14159 6.28319 1.57080 561810adfa60 Nodes -> 4 2 Faces -> 2 4 __trace__ = 1 6 3 5 4 5 _body = 4 20004 _nface = 2 _edgeID = 1 2 1 4 1 6 1 3 2 5 2 4 40002 -1 3.14159 6.28319 1.57080 561810a8f750 Nodes -> 1 3 Faces -> 2 5 _body = 4 40002 _nface = 2 __trace__ = 3 6 4 6 _edgeID = 1 4 2 2 2 7 3 5 3 5 2 4 10002 -1 6.45063 7.85398 4.21004 561810ac0030 Nodes -> 3 5 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 7 4 7 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 4 8 6 1 3 5 2 4 10002 -1 4.71239 6.11574 4.21004 561810ac0070 Nodes -> 6 1 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 8 4 8 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 3 9 6 6 3 -1 (degenerate) 10 6 7 5 3 2 4 20001 -1 -1.57080 -0.16745 4.21004 561810ac00b0 Nodes -> 6 7 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 10 4 10 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 1 11 8 7 3 6 2 4 10003 -1 -0.00000 3.14159 1.57080 561810ada100 Nodes -> 8 7 Faces -> 3 6 _body = 4 10003 _nface = 2 __trace__ = 3 11 4 11 _edgeID = 1 3 2 1 1 12 8 5 5 3 2 4 20001 -1 0.16745 1.57080 4.21004 561810ab61c0 Nodes -> 8 5 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 12 4 12 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 2 13 5 5 -1 3 (degenerate) 14 7 8 5 7 2 4 20004 -1 3.14159 6.28319 1.57080 561810ada490 Nodes -> 7 8 Faces -> 5 7 _body = 4 20004 _nface = 2 __trace__ = 3 14 4 14 _edgeID = 1 4 2 2 1 15 6 6 5 -1 (degenerate) 16 5 5 -1 5 (degenerate) 17 9 7 6 7 2 4 30004 -1 0.00000 2.04196 2.04196 561810adccb0 Nodes -> 9 7 Faces -> 6 7 _body = 4 30004 __trace__ = 1 4 3 17 4 17 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 1 18 10 9 6 8 2 4 30001 -1 0.00000 3.14159 1.57080 561810adccf0 Nodes -> 10 9 Faces -> 6 8 __trace__ = 1 3 3 18 4 18 _body = 4 30001 _nface = 2 _edgeID = 1 1 1 3 1 19 10 8 7 6 2 4 40003 -1 0.00000 2.04196 2.04196 561810adae30 Nodes -> 10 8 Faces -> 6 7 _body = 4 40003 __trace__ = 1 2 3 19 4 19 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 2 20 9 10 7 8 2 4 40001 -1 3.14159 6.28319 1.57080 561810adcc30 Nodes -> 9 10 Faces -> 7 8 __trace__ = 1 5 3 20 4 20 _body = 4 40001 _nface = 2 _edgeID = 1 1 1 4 1 iface ibody iford imark uvrange 1 1 3 -1 0.00000 3.14159 7.95804 10.00000 561810adcc70 Nodes -> 1 2 3 4 Edges -> 1 2 3 4 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 1 4 1 __trimmed__ = 1 _faceID = 1 3 2 2 1 4 -1 3.14159 6.28319 7.95804 10.00000 561810ac14b0 Nodes -> 1 2 4 3 Edges -> 1 5 3 6 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 2 4 2 __trimmed__ = 1 _faceID = 1 4 2 3 2 1 -1 3.14159 6.28319 -1.57080 1.57080 561810adadf0 Nodes -> 3 5 1 6 7 8 Edges -> 7 2 8 9 10 11 12 13 _body = 2 1 _brch = 2 1 _hist = 2 3 4 __trace__ = 2 1 3 3 4 3 __trimmed__ = 1 _faceID = 2 1 1 4 1 2 -1 -0.50000 0.50000 -0.50000 0.50000 561810adadb0 Nodes -> 2 4 Edges -> 4 5 _body = 1 2 _brch = 1 2 _hist = 1 3 4 __trace__ = 1 3 3 4 4 4 _faceID = 1 2 1 5 2 2 -1 0.00000 3.14159 -1.57080 1.57080 561810ada300 Nodes -> 8 5 7 6 1 3 Edges -> 12 14 10 15 8 6 7 16 _body = 2 2 _brch = 2 2 _hist = 2 3 4 __trace__ = 2 2 3 5 4 5 __trimmed__ = 1 _faceID = 2 2 1 6 1 3 -1 -0.00000 3.14159 0.00000 2.04196 561810ac10d0 Nodes -> 9 7 10 8 Edges -> 17 18 19 11 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 6 4 6 __trimmed__ = 1 _faceID = 1 3 1 7 1 4 -1 3.14159 6.28319 0.00000 2.04196 561810ac1050 Nodes -> 9 7 8 10 Edges -> 17 14 19 20 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 7 4 7 __trimmed__ = 1 _faceID = 1 4 1 8 1 1 -1 -0.50000 0.50000 -0.50000 0.50000 561810ae0440 Nodes -> 10 9 Edges -> 18 20 _body = 1 1 _brch = 1 1 _hist = 1 3 4 __trace__ = 1 4 3 8 4 8 _color =red _faceID = 1 1 1 oclass0= 25 (body) mtype0= 9 (solidbody) obj=561810a79bc0, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=561810a79c50, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aa5530, eref2=561810a8fbb0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810ad4960, eref3=561810a8fbb0 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a8cd10, eref4=561810aa5b00 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419602775e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa64d0, data5= 5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa3db0, eref4=561810aa5050 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acd690, data5= 5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa64d0, data5= 5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a906b0, eref4=561810a79c10 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419602775e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acd690, data5= 5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a8cdb0, eref4=561810a90b60 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aa5570, eref2=561810aa6270 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a79d50, eref3=561810aa6270 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a8cd10, eref4=561810aa5b00 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419602775e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa64d0, data5= 5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4fa0, eref4=561810aa3b00 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a906b0, eref4=561810a79c10 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419602775e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acd690, data5= 5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a78e10, eref4=561810a50c10 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa64d0, data5= 5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acd690, data5= 5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810a79c90, eref2=561810a78cc0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aa4e20, eref3=561810a78cc0 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4710, eref4=561810accd20 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100437285e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6450, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810a79dd0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6450, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa6030, eref4=561810aa3d70 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100428761e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6450, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acd610, eref4=561810a8fa30 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa6070, eref4=561810a8cc90 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100428761e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a79b80, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810aa60b0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a79b80, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aca360, eref4=561810a8cc50 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100437285e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a79b80, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a8cdb0, eref4=561810a90b60 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aa54b0, eref2=561810a78c80 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aa4e60, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa3db0, eref4=561810aa5050 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acd690, data5= 5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa64d0, data5= 5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a78e10, eref4=561810a50c10 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa64d0, data5= 5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acd690, data5= 5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aa54f0, eref2=561810a8fa70 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a79d10, eref3=561810a8fa70 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa6030, eref4=561810aa3d70 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100428761e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6450, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810a79d90, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6450, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4710, eref4=561810accd20 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100437285e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6450, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4fa0, eref4=561810aa3b00 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa6490, data5= 2.9580397225e+00 -3.0102292537e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aca360, eref4=561810a8cc50 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100437285e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a79b80, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810acb2c0, data5= 2.9580397225e+00 -3.9287161900e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810aa4f60, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a79b80, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa6070, eref4=561810a8cc90 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100428761e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a79b80, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4f20, eref4=561810a8fff0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ad3770, eref2=561810aa5e90 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aa55b0, eref3=561810aa5e90 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4ea0, eref4=561810a8fbf0 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419608064e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa3b40, data5= -5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acd610, eref4=561810a8fa30 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acde90, eref4=561810a78d00 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419608064e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8ccd0, data5= -5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4ee0, eref4=561810a8fc30 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8ccd0, data5= -5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa3b40, data5= -5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ad5070, eref2=561810aa5e10 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810aa4de0, eref3=561810aa5e10 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4ea0, eref4=561810a8fbf0 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419608064e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa3b40, data5= -5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad49a0, eref4=561810a8fb70 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa3b40, data5= -5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8ccd0, data5= -5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810acde90, eref4=561810a78d00 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419608064e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8ccd0, data5= -5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4f20, eref4=561810a8fff0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa44d0, data5= -2.9580391936e+00 1.5051143030e-16 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a51a60, data5= -2.9580391936e+00 2.4236012393e-16 5.0000100000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=561810ad5030, eref2=561810a50c90 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a79cd0, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aa4ee0, eref4=561810a8fc30 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8ccd0, data5= -5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa3b40, data5= -5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad49a0, eref4=561810a8fb70 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707994684e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aa3b40, data5= -5.0000000000e+00 -6.1232462422e-17 -5.0000100000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810a8ccd0, data5= -5.0000000000e+00 1.2246492484e-16 5.0000100000e-01 Comparing geometric sensitivities wrt "Rcyl" for ibody=7 d(Face)/d(Rcyl) check complete with 0 total errors (errmax= 3.4658e-08) d(Edge)/d(Rcyl) check complete with 0 total errors (errmax= 4.5634e-13) d(Node)/d(Rcyl) check complete with 0 total errors (errmax= 7.2545e-07) ********************************************************* Starting geometric sensitivity wrt "Rsph" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Body x: -5.00000 5.00000 y: -3.00000 3.00000 z: -3.00000 3.00000 Node 1 x: 2.95804 y: -0.00000 z: -0.50000 Node 2 x: 5.00000 y: -0.00000 z: -0.50000 Node 3 x: 2.95804 y: -0.00000 z: 0.50000 Node 4 x: 5.00000 y: 0.00000 z: 0.50000 Node 5 x: 0.00000 y: -0.00000 z: 3.00000 Node 6 x: 0.00000 y: -0.00000 z: -3.00000 Node 7 x: -2.95804 y: 0.00000 z: -0.50000 Node 8 x: -2.95804 y: 0.00000 z: 0.50000 Node 9 x: -5.00000 y: -0.00000 z: -0.50000 Node 10 x: -5.00000 y: 0.00000 z: 0.50000 Edge 1 x: 2.95804 5.00000 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 2 x: 2.95804 2.95804 y: -0.50000 -0.00000 z: -0.50000 0.50000 Edge 3 x: 2.95804 5.00000 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 4 x: 5.00000 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 5 x: 5.00000 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 6 x: 2.95804 2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 7 x: 0.00000 2.95804 y: -0.00000 -0.00000 z: 0.50000 3.00000 Edge 8 x: -0.00000 2.95804 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 9 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 10 x: -2.95804 0.00000 y: -0.00000 0.00000 z: -3.00000 -0.50000 Edge 11 x: -2.95804 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 12 x: -2.95804 0.00000 y: -0.00000 0.00000 z: 0.50000 3.00000 Edge 13 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 14 x: -2.95804 -2.95804 y: 0.00000 0.50000 z: -0.50000 0.50000 Edge 15 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 16 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 17 x: -5.00000 -2.95804 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 18 x: -5.00000 -5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 19 x: -5.00000 -2.95804 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 20 x: -5.00000 -5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 1 x: 2.95804 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 2 x: 2.95804 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 3 x: -2.95804 2.95804 y: -3.00000 0.00000 z: -3.00000 3.00000 Face 4 x: 5.00000 5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Face 5 x: -2.95804 2.95804 y: -0.00000 3.00000 z: -3.00000 3.00000 Face 6 x: -5.00000 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 7 x: -5.00000 -2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 8 x: -5.00000 -5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Body 4 _body = 4 _brch = 5 inode nedge ibody x y z 1 4 4 2.95804 -0.00000 -0.50000 Edges -> 1 2 6 8 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 1 4 1 _nodeID = 1 2 3 4 5.00000 -0.00000 -0.50000 Edges -> 1 4 5 Faces -> 1 2 4 __trace__ = 1 1 3 2 4 2 _nedge = 3 _nodeID = 2 3 4 4 2.95804 -0.00000 0.50000 Edges -> 2 3 6 7 Faces -> 1 2 3 5 _nedge = 4 __trace__ = 3 3 4 3 _nodeID = 3 4 3 4 5.00000 0.00000 0.50000 Edges -> 3 4 5 Faces -> 1 2 4 __trace__ = 1 2 3 4 4 4 _nedge = 3 _nodeID = 4 5 4 4 0.00000 -0.00000 3.00000 Edges -> 7 12 13 16 Faces -> 3 5 __trace__ = 2 1 3 5 4 5 _nedge = 4 _nodeID = 5 6 4 4 0.00000 -0.00000 -3.00000 Edges -> 8 9 10 15 Faces -> 3 5 __trace__ = 2 2 3 6 4 6 _nedge = 4 _nodeID = 6 7 4 4 -2.95804 0.00000 -0.50000 Edges -> 10 11 14 17 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 7 4 7 _nodeID = 7 8 4 4 -2.95804 0.00000 0.50000 Edges -> 11 12 14 19 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 8 4 8 _nodeID = 8 9 3 4 -5.00000 -0.00000 -0.50000 Edges -> 17 18 20 Faces -> 6 7 8 __trace__ = 1 4 3 9 4 9 _nedge = 3 _nodeID = 9 10 3 4 -5.00000 0.00000 0.50000 Edges -> 18 19 20 Faces -> 6 7 8 __trace__ = 1 3 3 10 4 10 _nedge = 3 _nodeID = 10 iedge ibeg iend ileft irite nface ibody iford imark trange[0] trange[1] length 1 1 2 1 2 2 4 30004 -1 7.95804 10.00000 2.04196 561810a506a0 Nodes -> 1 2 Faces -> 1 2 _body = 4 30004 __trace__ = 1 4 3 1 4 1 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 3 2 3 1 1 3 2 4 30001 -1 0.00000 3.14159 1.57080 561810a502e0 Nodes -> 3 1 Faces -> 1 3 _body = 4 30001 _nface = 2 __trace__ = 3 2 4 2 _edgeID = 1 3 2 1 2 3 3 4 2 1 2 4 40003 -1 7.95804 10.00000 2.04196 561810ace180 Nodes -> 3 4 Faces -> 1 2 _body = 4 40003 __trace__ = 1 2 3 3 4 3 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 4 4 4 2 4 1 2 4 20003 -1 0.00000 3.14159 1.57080 561810a505e0 Nodes -> 2 4 Faces -> 1 4 __trace__ = 1 1 3 4 4 4 _body = 4 20003 _nface = 2 _edgeID = 1 2 1 3 1 5 2 4 4 2 2 4 20004 -1 3.14159 6.28319 1.57080 561810aa3df0 Nodes -> 4 2 Faces -> 2 4 __trace__ = 1 6 3 5 4 5 _body = 4 20004 _nface = 2 _edgeID = 1 2 1 4 1 6 1 3 2 5 2 4 40002 -1 3.14159 6.28319 1.57080 561810aaeb70 Nodes -> 1 3 Faces -> 2 5 _body = 4 40002 _nface = 2 __trace__ = 3 6 4 6 _edgeID = 1 4 2 2 2 7 3 5 3 5 2 4 10002 -1 6.45063 7.85398 4.21005 561810aaa5a0 Nodes -> 3 5 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 7 4 7 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 4 8 6 1 3 5 2 4 10002 -1 4.71239 6.11574 4.21005 561810ac8dc0 Nodes -> 6 1 Faces -> 3 5 _body = 4 10002 __trace__ = 2 4 3 8 4 8 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 3 9 6 6 3 -1 (degenerate) 10 6 7 5 3 2 4 20001 -1 -1.57080 -0.16745 4.21005 561810aaa560 Nodes -> 6 7 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 10 4 10 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 1 11 8 7 3 6 2 4 10003 -1 -0.00000 3.14159 1.57080 561810a51960 Nodes -> 8 7 Faces -> 3 6 _body = 4 10003 _nface = 2 __trace__ = 3 11 4 11 _edgeID = 1 3 2 1 1 12 8 5 5 3 2 4 20001 -1 0.16745 1.57080 4.21005 561810aad870 Nodes -> 8 5 Faces -> 3 5 _body = 4 20001 __trace__ = 2 2 3 12 4 12 _nface = 2 __trimmed__ = 1 _edgeID = 2 1 2 2 2 13 5 5 -1 3 (degenerate) 14 7 8 5 7 2 4 20004 -1 3.14159 6.28319 1.57080 561810a8fea0 Nodes -> 7 8 Faces -> 5 7 _body = 4 20004 _nface = 2 __trace__ = 3 14 4 14 _edgeID = 1 4 2 2 1 15 6 6 5 -1 (degenerate) 16 5 5 -1 5 (degenerate) 17 9 7 6 7 2 4 30004 -1 0.00000 2.04196 2.04196 561810a90470 Nodes -> 9 7 Faces -> 6 7 _body = 4 30004 __trace__ = 1 4 3 17 4 17 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 1 18 10 9 6 8 2 4 30001 -1 0.00000 3.14159 1.57080 561810a50320 Nodes -> 10 9 Faces -> 6 8 __trace__ = 1 3 3 18 4 18 _body = 4 30001 _nface = 2 _edgeID = 1 1 1 3 1 19 10 8 7 6 2 4 40003 -1 0.00000 2.04196 2.04196 561810ad5b10 Nodes -> 10 8 Faces -> 6 7 _body = 4 40003 __trace__ = 1 2 3 19 4 19 _nface = 2 __trimmed__ = 1 _edgeID = 1 3 1 4 2 20 9 10 7 8 2 4 40001 -1 3.14159 6.28319 1.57080 561810aa4b40 Nodes -> 9 10 Faces -> 7 8 __trace__ = 1 5 3 20 4 20 _body = 4 40001 _nface = 2 _edgeID = 1 1 1 4 1 iface ibody iford imark uvrange 1 1 3 -1 0.00000 3.14159 7.95804 10.00000 561810aa3e30 Nodes -> 1 2 3 4 Edges -> 1 2 3 4 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 1 4 1 __trimmed__ = 1 _faceID = 1 3 2 2 1 4 -1 3.14159 6.28319 7.95804 10.00000 561810aae070 Nodes -> 1 2 4 3 Edges -> 1 5 3 6 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 2 4 2 __trimmed__ = 1 _faceID = 1 4 2 3 2 1 -1 3.14159 6.28319 -1.57080 1.57080 561810aa39c0 Nodes -> 3 5 1 6 7 8 Edges -> 7 2 8 9 10 11 12 13 _body = 2 1 _brch = 2 1 _hist = 2 3 4 __trace__ = 2 1 3 3 4 3 __trimmed__ = 1 _faceID = 2 1 1 4 1 2 -1 -0.50000 0.50000 -0.50000 0.50000 561810a908b0 Nodes -> 2 4 Edges -> 4 5 _body = 1 2 _brch = 1 2 _hist = 1 3 4 __trace__ = 1 3 3 4 4 4 _faceID = 1 2 1 5 2 2 -1 0.00000 3.14159 -1.57080 1.57080 561810aa3bc0 Nodes -> 8 5 7 6 1 3 Edges -> 12 14 10 15 8 6 7 16 _body = 2 2 _brch = 2 2 _hist = 2 3 4 __trace__ = 2 2 3 5 4 5 __trimmed__ = 1 _faceID = 2 2 1 6 1 3 -1 -0.00000 3.14159 0.00000 2.04196 561810aa8f50 Nodes -> 9 7 10 8 Edges -> 17 18 19 11 _body = 1 3 _brch = 1 3 _hist = 1 3 4 __trace__ = 1 1 3 6 4 6 __trimmed__ = 1 _faceID = 1 3 1 7 1 4 -1 3.14159 6.28319 0.00000 2.04196 561810a83df0 Nodes -> 9 7 8 10 Edges -> 17 14 19 20 _body = 1 4 _brch = 1 4 _hist = 1 3 4 __trace__ = 1 2 3 7 4 7 __trimmed__ = 1 _faceID = 1 4 1 8 1 1 -1 -0.50000 0.50000 -0.50000 0.50000 561810aa4490 Nodes -> 10 9 Edges -> 18 20 _body = 1 1 _brch = 1 1 _hist = 1 3 4 __trace__ = 1 4 3 8 4 8 _color =red _faceID = 1 1 1 oclass0= 25 (body) mtype0= 9 (solidbody) obj=561810ac33a0, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=5618109922e0, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ac0450, eref2=561810adb600 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810af3d30, eref3=561810adb600 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af4420, eref4=561810adc200 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419590943e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aeb9f0, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeee40, eref4=561810ac2240 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af18e0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aeb9f0, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adf440, eref4=561810ac2b20 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419590943e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af18e0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af4460, eref4=561810a8f810 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ade780, eref2=561810aeec20 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810adbd20, eref3=561810aeec20 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af4420, eref4=561810adc200 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419590943e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aeb9f0, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ac2280, eref4=561810ae0ea0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adf440, eref4=561810ac2b20 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419590943e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af18e0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a76ec0, eref4=561810ab3b80 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aeb9f0, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af18e0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ac2ae0, eref2=561810adf040 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810adec00, eref3=561810adf040 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad76f0, eref4=561810aedc10 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100463151e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af44a0, data5= 1.8369708110e-16 -4.4992808477e-32 3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810adefc0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af44a0, data5= 1.8369708110e-16 -4.4992808477e-32 3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad29b0, eref4=561810aecac0 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100454627e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af44a0, data5= 1.8369708110e-16 -4.4992808477e-32 3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af3220, eref4=561810adf300 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeeca0, eref4=561810aeb830 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100454627e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6100, data5= 1.8369708110e-16 -4.4992808477e-32 -3.0000010000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810aeec60, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6100, data5= 1.8369708110e-16 -4.4992808477e-32 -3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae3070, eref4=561810af3850 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100463151e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6100, data5= 1.8369708110e-16 -4.4992808477e-32 -3.0000010000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af4460, eref4=561810a8f810 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ac02b0, eref2=561810adf000 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810adda80, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeee40, eref4=561810ac2240 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af18e0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aeb9f0, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810a76ec0, eref4=561810ab3b80 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aeb9f0, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af18e0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810ac0350, eref2=561810abd480 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810ac2aa0, eref3=561810abd480 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad29b0, eref4=561810aecac0 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100454627e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af44a0, data5= 1.8369708110e-16 -4.4992808477e-32 3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810adef80, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af44a0, data5= 1.8369708110e-16 -4.4992808477e-32 3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ad76f0, eref4=561810aedc10 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100463151e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af44a0, data5= 1.8369708110e-16 -4.4992808477e-32 3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ac2280, eref4=561810ae0ea0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af7be0, data5= 2.9580409057e+00 -3.0102319274e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810ae3070, eref4=561810af3850 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100463151e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6100, data5= 1.8369708110e-16 -4.4992808477e-32 -3.0000010000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aef2a0, data5= 2.9580409057e+00 -3.9287170267e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=561810abd440, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6100, data5= 1.8369708110e-16 -4.4992808477e-32 -3.0000010000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810aeeca0, eref4=561810aeb830 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100454627e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ab6100, data5= 1.8369708110e-16 -4.4992808477e-32 -3.0000010000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adebc0, eref4=561810a8f690 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810aedd30, eref2=561810af42e0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810a8f610, eref3=561810af42e0 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adb920, eref4=561810adf240 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419596232e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aefc90, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af3220, eref4=561810adf300 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af6840, eref4=561810ab3c00 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419596232e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af1650, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adeb80, eref4=561810adf280 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af1650, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aefc90, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=561810abe0f0, eref2=561810af2540 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810adb070, eref3=561810af2540 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adb920, eref4=561810adf240 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419596232e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aefc90, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af3d70, eref4=561810ac2420 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aefc90, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af1650, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af6840, eref4=561810ab3c00 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419596232e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af1650, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adebc0, eref4=561810a8f690 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac2200, data5= -2.9580403768e+00 1.5051156398e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810ac27d0, data5= -2.9580403768e+00 2.4236007392e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=561810abe130, eref2=561810ade740 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=561810abf1e0, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810adeb80, eref4=561810adf280 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af1650, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aefc90, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=561810af3d70, eref4=561810ac2420 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810aefc90, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=561810af1650, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 Comparing geometric sensitivities wrt "Rsph" for ibody=7 d(Face)/d(Rsph) check complete with 0 total errors (errmax= 9.0116e-10) d(Edge)/d(Rsph) check complete with 0 total errors (errmax= 4.1890e-16) d(Node)/d(Rsph) check complete with 0 total errors (errmax= 1.0294e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max geom err= 7.2545e-07) with 0 suppressions real 0m2.024s user 0m2.351s sys 0m0.411s ++ set +x -------------------------------------------------------------------------------------------------- ( 216 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designT1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "L" for ibody=1 d(Face)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "L" for ibody=2 d(Face)/d(L) check complete with 0 total errors (errmax= 7.4239e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.1168e-14) d(Node)/d(L) check complete with 0 total errors (errmax= 7.4244e-09) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "H" for ibody=1 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "H" for ibody=2 d(Face)/d(H) check complete with 0 total errors (errmax= 2.9724e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.7784e-13) d(Node)/d(H) check complete with 0 total errors (errmax= 2.9720e-08) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=1 Computing finite difference sensitivities for ibody=1 Comparing geometric sensitivities wrt "D" for ibody=1 d(Face)/d(D) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 2.3748e-11) Computing analytic sensitivities (if possible) for ibody=2 Computing finite difference sensitivities for ibody=2 Comparing geometric sensitivities wrt "D" for ibody=2 d(Face)/d(D) check complete with 0 total errors (errmax= 1.1942e-07) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.8675e-12) d(Node)/d(D) check complete with 0 total errors (errmax= 1.1944e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.021 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1944e-07) with 0 suppressions real 0m1.930s user 0m2.605s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 217 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designT2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "L" for ibody=4 d(Face)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.5142e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "L" for ibody=5 d(Face)/d(L) check complete with 0 total errors (errmax= 7.4239e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.1168e-14) d(Node)/d(L) check complete with 0 total errors (errmax= 7.4244e-09) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "H" for ibody=4 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0350e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 3.0772e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 4.0350e-11) Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "H" for ibody=5 d(Face)/d(H) check complete with 0 total errors (errmax= 2.9724e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.7784e-13) d(Node)/d(H) check complete with 0 total errors (errmax= 2.9720e-08) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=4 Computing finite difference sensitivities for ibody=4 Comparing geometric sensitivities wrt "D" for ibody=4 d(Face)/d(D) check complete with 0 total errors (errmax= 2.3748e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.0659e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 2.3748e-11) Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "D" for ibody=5 d(Face)/d(D) check complete with 0 total errors (errmax= 1.1942e-07) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.8675e-12) d(Node)/d(D) check complete with 0 total errors (errmax= 1.1944e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.012 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1944e-07) with 0 suppressions real 0m1.528s user 0m2.005s sys 0m0.290s ++ set +x -------------------------------------------------------------------------------------------------- ( 218 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU1a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xbeg" for ibody=3 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.4455e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "offset" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "offset" for ibody=3 d(Face)/d(offset) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(offset) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(offset) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max geom err= 5.1279e-10) with 0 suppressions real 0m0.513s user 0m0.340s sys 0m0.244s ++ set +x -------------------------------------------------------------------------------------------------- ( 219 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU1b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xbeg" for ibody=6 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.4455e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "offset" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "offset" for ibody=6 d(Face)/d(offset) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(offset) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(offset) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max geom err= 5.1279e-10) with 0 suppressions real 0m0.507s user 0m0.328s sys 0m0.251s ++ set +x -------------------------------------------------------------------------------------------------- ( 220 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU1c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xbeg" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xbeg" for ibody=3 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 5.1279e-10) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.4455e-17) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 5.1279e-10) ********************************************************* Starting geometric sensitivity wrt "offset" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "offset" for ibody=3 d(Face)/d(offset) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(offset) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(offset) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max geom err= 5.1279e-10) with 0 suppressions real 0m0.510s user 0m0.322s sys 0m0.253s ++ set +x -------------------------------------------------------------------------------------------------- ( 221 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU2a.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 4 Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dx" for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 4 Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dy" for ibody=5 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 4 Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dz" for ibody=5 d(Face)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.037 sec Sensitivity checks complete with 0 total errors (max geom err= 1.6140e-10) with 0 suppressions real 0m0.875s user 0m0.940s sys 0m0.443s ++ set +x -------------------------------------------------------------------------------------------------- ( 222 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU2b.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 7 Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dx" for ibody=8 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 7 Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dy" for ibody=8 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 7 Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "dz" for ibody=8 d(Face)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.046 sec Sensitivity checks complete with 0 total errors (max geom err= 1.6140e-10) with 0 suppressions real 0m1.020s user 0m1.110s sys 0m0.460s ++ set +x -------------------------------------------------------------------------------------------------- ( 223 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU2c.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 4 Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dx" for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 4 Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dy" for ibody=5 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dz" ********************************************************* Propagating velocities throughout feature tree ... skipping Body 4 Computing analytic sensitivities (if possible) for ibody=5 Computing finite difference sensitivities for ibody=5 Comparing geometric sensitivities wrt "dz" for ibody=5 d(Face)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.049 sec Sensitivity checks complete with 0 total errors (max geom err= 1.6140e-10) with 0 suppressions real 0m1.064s user 0m1.214s sys 0m0.283s ++ set +x -------------------------------------------------------------------------------------------------- ( 224 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designV1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "L" for ibody=6 d(Face)/d(L) check complete with 0 total errors (errmax= 1.1163e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.1944e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 9.0159e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "D" for ibody=6 d(Face)/d(D) check complete with 0 total errors (errmax= 1.1570e-08) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.2432e-14) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "Z" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "Z" for ibody=6 d(Face)/d(Z) check complete with 0 total errors (errmax= 1.9945e-10) d(Edge)/d(Z) check complete with 0 total errors (errmax= 8.4770e-18) d(Node)/d(Z) check complete with 0 total errors (errmax= 3.8786e-10) ********************************************************* Starting geometric sensitivity wrt "xA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xA" for ibody=6 d(Face)/d(xA) check complete with 0 total errors (errmax= 5.4273e-11) d(Edge)/d(xA) check complete with 0 total errors (errmax= 5.4763e-19) d(Node)/d(xA) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "yA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "yA" for ibody=6 d(Face)/d(yA) check complete with 0 total errors (errmax= 1.5046e-10) d(Edge)/d(yA) check complete with 0 total errors (errmax= 1.8299e-18) d(Node)/d(yA) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.021 sec Sensitivity checks complete with 0 total errors (max geom err= 1.1570e-08) with 0 suppressions real 0m0.661s user 0m0.424s sys 0m0.267s ++ set +x -------------------------------------------------------------------------------------------------- ( 225 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "dx" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dx" for ibody=7 d(Face)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.1723e-18) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "dy" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "dy" for ibody=7 d(Face)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.4227e-18) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.6140e-10) ********************************************************* Starting geometric sensitivity wrt "z" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z" for ibody=7 d(Face)/d(z) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(z) check complete with 0 total errors (errmax= 5.2451e-20) d(Node)/d(z) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.050 sec Sensitivity checks complete with 0 total errors (max geom err= 1.6140e-10) with 0 suppressions real 0m0.949s user 0m1.352s sys 0m0.272s ++ set +x -------------------------------------------------------------------------------------------------- ( 226 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 WE SHOULD NOT GET HERE 50911: jedge=9 real 0m0.432s user 0m0.186s sys 0m0.262s ++ set +x -------------------------------------------------------------------------------------------------- ( 227 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 WE SHOULD NOT GET HERE 50911: jedge=23 real 0m0.520s user 0m0.350s sys 0m0.257s ++ set +x -------------------------------------------------------------------------------------------------- ( 228 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=16 Computing finite difference sensitivities for ibody=16 WE SHOULD NOT GET HERE 50911: jedge=23 real 0m0.649s user 0m0.567s sys 0m0.260s ++ set +x -------------------------------------------------------------------------------------------------- ( 229 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=16 Computing finite difference sensitivities for ibody=16 WE SHOULD NOT GET HERE 50911: jedge=23 real 0m0.652s user 0m0.579s sys 0m0.250s ++ set +x -------------------------------------------------------------------------------------------------- ( 230 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW5.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xcut" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 WE SHOULD NOT GET HERE 50911: jedge=23 real 0m0.801s user 0m0.515s sys 0m0.295s ++ set +x -------------------------------------------------------------------------------------------------- ( 231 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "L" for ibody=6 d(Face)/d(L) check complete with 0 total errors (errmax= 6.7608e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "R" for ibody=6 d(Face)/d(R) check complete with 0 total errors (errmax= 1.7863e-10) d(Edge)/d(R) check complete with 0 total errors (errmax= 3.5126e-19) d(Node)/d(R) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xA" for ibody=6 d(Face)/d(xA) check complete with 0 total errors (errmax= 1.5154e-10) d(Edge)/d(xA) check complete with 0 total errors (errmax= 4.2272e-19) d(Node)/d(xA) check complete with 0 total errors (errmax= 6.7419e-11) ********************************************************* Starting geometric sensitivity wrt "yA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "yA" for ibody=6 d(Face)/d(yA) check complete with 0 total errors (errmax= 2.0455e-08) d(Edge)/d(yA) check complete with 0 total errors (errmax= 2.8864e-13) d(Node)/d(yA) check complete with 0 total errors (errmax= 5.5711e-08) ********************************************************* Starting geometric sensitivity wrt "xB" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "xB" for ibody=6 d(Face)/d(xB) check complete with 0 total errors (errmax= 1.9461e-10) d(Edge)/d(xB) check complete with 0 total errors (errmax= 6.7635e-18) d(Node)/d(xB) check complete with 0 total errors (errmax= 2.6968e-10) ********************************************************* Starting geometric sensitivity wrt "yB" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=6 Computing finite difference sensitivities for ibody=6 Comparing geometric sensitivities wrt "yB" for ibody=6 d(Face)/d(yB) check complete with 0 total errors (errmax= 8.0706e-08) d(Edge)/d(yB) check complete with 0 total errors (errmax= 4.5653e-12) d(Node)/d(yB) check complete with 0 total errors (errmax= 2.2156e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.014 sec Sensitivity checks complete with 0 total errors (max geom err= 2.2156e-07) with 0 suppressions real 0m0.933s user 0m0.584s sys 0m0.263s ++ set +x -------------------------------------------------------------------------------------------------- ( 232 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 WE SHOULD NOT GET HERE 50911: jedge=33 real 0m1.327s user 0m1.291s sys 0m0.379s ++ set +x -------------------------------------------------------------------------------------------------- ( 233 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "L" for ibody=8 d(Face)/d(L) check complete with 0 total errors (errmax= 7.1640e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "R" for ibody=8 d(Face)/d(R) check complete with 0 total errors (errmax= 2.3036e-10) d(Edge)/d(R) check complete with 0 total errors (errmax= 1.2257e-13) d(Node)/d(R) check complete with 0 total errors (errmax= 1.1119e-07) ********************************************************* Starting geometric sensitivity wrt "xA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xA" for ibody=8 d(Face)/d(xA) check complete with 0 total errors (errmax= 1.9656e-10) d(Edge)/d(xA) check complete with 0 total errors (errmax= 9.0136e-18) d(Node)/d(xA) check complete with 0 total errors (errmax= 2.8330e-10) ********************************************************* Starting geometric sensitivity wrt "yA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "yA" for ibody=8 d(Face)/d(yA) check complete with 0 total errors (errmax= 6.7707e-08) d(Edge)/d(yA) check complete with 0 total errors (errmax= 7.4162e-13) d(Node)/d(yA) check complete with 0 total errors (errmax= 2.5660e-07) ********************************************************* Starting geometric sensitivity wrt "xB" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "xB" for ibody=8 d(Face)/d(xB) check complete with 0 total errors (errmax= 1.9645e-10) d(Edge)/d(xB) check complete with 0 total errors (errmax= 2.0883e-17) d(Node)/d(xB) check complete with 0 total errors (errmax= 2.6968e-10) ********************************************************* Starting geometric sensitivity wrt "yB" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "yB" for ibody=8 d(Face)/d(yB) check complete with 0 total errors (errmax= 1.1367e-07) d(Edge)/d(yB) check complete with 0 total errors (errmax= 6.3468e-12) d(Node)/d(yB) check complete with 0 total errors (errmax= 5.1341e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.311 sec Sensitivity checks complete with 0 total errors (max geom err= 5.1341e-07) with 0 suppressions real 0m2.247s user 0m4.765s sys 0m5.237s ++ set +x -------------------------------------------------------------------------------------------------- ( 234 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 Computing finite difference sensitivities for ibody=13 WE SHOULD NOT GET HERE 50911: jedge=33 real 0m1.559s user 0m2.599s sys 0m2.591s ++ set +x -------------------------------------------------------------------------------------------------- ( 235 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX5.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "L" for ibody=3 d(Face)/d(L) check complete with 0 total errors (errmax= 1.2018e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.6314e-20) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "R" for ibody=3 d(Face)/d(R) check complete with 0 total errors (errmax= 1.8087e-10) d(Edge)/d(R) check complete with 0 total errors (errmax= 3.0938e-19) d(Node)/d(R) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "xA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xA" for ibody=3 d(Face)/d(xA) check complete with 0 total errors (errmax= 4.6195e-08) d(Edge)/d(xA) check complete with 0 total errors (errmax= 4.3663e-13) d(Node)/d(xA) check complete with 0 total errors (errmax= 6.8520e-08) ********************************************************* Starting geometric sensitivity wrt "yA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "yA" for ibody=3 d(Face)/d(yA) check complete with 0 total errors (errmax= 5.2531e-08) d(Edge)/d(yA) check complete with 0 total errors (errmax= 7.1006e-13) d(Node)/d(yA) check complete with 0 total errors (errmax= 8.7379e-08) ********************************************************* Starting geometric sensitivity wrt "xB" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xB" for ibody=3 d(Face)/d(xB) check complete with 0 total errors (errmax= 2.7507e-08) d(Edge)/d(xB) check complete with 0 total errors (errmax= 1.7778e-13) d(Node)/d(xB) check complete with 0 total errors (errmax= 4.3722e-08) ********************************************************* Starting geometric sensitivity wrt "xD" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "xD" for ibody=3 d(Face)/d(xD) check complete with 0 total errors (errmax= 2.3897e-09) d(Edge)/d(xD) check complete with 0 total errors (errmax= 1.7327e-15) d(Node)/d(xD) check complete with 0 total errors (errmax= 4.3164e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.033 sec Sensitivity checks complete with 0 total errors (max geom err= 8.7379e-08) with 0 suppressions real 0m0.757s user 0m0.556s sys 0m0.251s ++ set +x -------------------------------------------------------------------------------------------------- ( 236 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX6.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 WE SHOULD NOT GET HERE 50911: jedge=37 real 0m1.294s user 0m1.743s sys 0m1.731s ++ set +x -------------------------------------------------------------------------------------------------- ( 237 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX7.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "L" for ibody=7 d(Face)/d(L) check complete with 0 total errors (errmax= 1.1630e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.7526e-14) d(Node)/d(L) check complete with 0 total errors (errmax= 4.5563e-08) ********************************************************* Starting geometric sensitivity wrt "R" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "R" for ibody=7 d(Face)/d(R) check complete with 0 total errors (errmax= 1.6706e-10) d(Edge)/d(R) check complete with 0 total errors (errmax= 1.4412e-12) d(Node)/d(R) check complete with 0 total errors (errmax= 1.7896e-07) ********************************************************* Starting geometric sensitivity wrt "xA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xA" for ibody=7 d(Face)/d(xA) check complete with 0 total errors (errmax= 4.6652e-08) d(Edge)/d(xA) check complete with 0 total errors (errmax= 4.3663e-13) d(Node)/d(xA) check complete with 0 total errors (errmax= 9.7737e-08) ********************************************************* Starting geometric sensitivity wrt "yA" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "yA" for ibody=7 d(Face)/d(yA) check complete with 0 total errors (errmax= 1.0311e-07) d(Edge)/d(yA) check complete with 0 total errors (errmax= 2.5371e-12) d(Node)/d(yA) check complete with 0 total errors (errmax= 2.6736e-07) ********************************************************* Starting geometric sensitivity wrt "xB" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xB" for ibody=7 d(Face)/d(xB) check complete with 0 total errors (errmax= 4.3176e-08) d(Edge)/d(xB) check complete with 0 total errors (errmax= 2.8378e-13) d(Node)/d(xB) check complete with 0 total errors (errmax= 5.7231e-08) ********************************************************* Starting geometric sensitivity wrt "xD" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xD" for ibody=7 d(Face)/d(xD) check complete with 0 total errors (errmax= 2.5952e-09) d(Edge)/d(xD) check complete with 0 total errors (errmax= 6.9588e-13) d(Node)/d(xD) check complete with 0 total errors (errmax= 1.2461e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 1.202 sec Sensitivity checks complete with 0 total errors (max geom err= 2.6736e-07) with 0 suppressions real 0m4.397s user 0m6.438s sys 0m5.563s ++ set +x -------------------------------------------------------------------------------------------------- ( 238 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX8.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 WE SHOULD NOT GET HERE 50911: jedge=37 real 0m2.483s user 0m3.136s sys 0m1.901s ++ set +x -------------------------------------------------------------------------------------------------- ( 239 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY0.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 1.9230e-07) d(Edge)/d(L) check complete with 0 total errors (errmax= 7.7654e-13) d(Node)/d(L) check complete with 0 total errors (errmax= 1.9230e-07) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 5.7740e-07) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.5003e-11) d(Node)/d(H) check complete with 0 total errors (errmax= 5.7740e-07) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 1.2062e-35) d(Edge)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 9.4993e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 4.2585e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 1.3598e-10) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(x0) check complete with 0 total errors (errmax= 8.4015e-18) d(Node)/d(x0) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.037 sec Sensitivity checks complete with 0 total errors (max geom err= 5.7740e-07) with 0 suppressions real 0m1.319s user 0m1.186s sys 0m0.331s ++ set +x -------------------------------------------------------------------------------------------------- ( 240 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "L" for ibody=8 d(Face)/d(L) check complete with 0 total errors (errmax= 3.0329e-08) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.7389e-13) d(Node)/d(L) check complete with 0 total errors (errmax= 3.1543e-08) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "H" for ibody=8 d(Face)/d(H) check complete with 0 total errors (errmax= 8.8932e-07) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.4948e-10) d(Node)/d(H) check complete with 0 total errors (errmax= 1.4637e-06) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "D" for ibody=8 d(Face)/d(D) check complete with 0 total errors (errmax= 5.8245e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "x0" for ibody=8 d(Face)/d(x0) check complete with 0 total errors (errmax= 2.4549e-10) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.0177e-17) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "y0" for ibody=8 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.3209e-10) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.7966e-17) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.3209e-10) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=8 Computing finite difference sensitivities for ibody=8 Comparing geometric sensitivities wrt "z0" for ibody=8 d(Face)/d(z0) check complete with 0 total errors (errmax= 5.8245e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.023 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4637e-06) with 0 suppressions real 0m1.006s user 0m1.035s sys 0m0.277s ++ set +x -------------------------------------------------------------------------------------------------- ( 241 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "D" for ibody=7 d(Face)/d(D) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.2662e-18) d(Node)/d(D) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x1" for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 6.4871e-07) d(Edge)/d(x1) check complete with 0 total errors (errmax= 1.8939e-11) d(Node)/d(x1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y1" for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 5.7660e-07) d(Edge)/d(y1) check complete with 0 total errors (errmax= 1.4961e-11) d(Node)/d(y1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x2" for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 8.6497e-07) d(Edge)/d(x2) check complete with 0 total errors (errmax= 3.3670e-11) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y2" for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 5.8402e-07) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.5347e-11) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x3" for ibody=7 d(Face)/d(x3) check complete with 0 total errors (errmax= 1.1133e-06) d(Edge)/d(x3) check complete with 0 total errors (errmax= 5.5777e-11) d(Node)/d(x3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y3" for ibody=7 d(Face)/d(y3) check complete with 0 total errors (errmax= 1.6971e-06) d(Edge)/d(y3) check complete with 0 total errors (errmax= 1.2960e-10) d(Node)/d(y3) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x4" for ibody=7 d(Face)/d(x4) check complete with 0 total errors (errmax= 1.0953e-06) d(Edge)/d(x4) check complete with 0 total errors (errmax= 5.3979e-11) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y4" for ibody=7 d(Face)/d(y4) check complete with 0 total errors (errmax= 2.3340e-06) d(Edge)/d(y4) check complete with 0 total errors (errmax= 2.4514e-10) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x5" for ibody=7 d(Face)/d(x5) check complete with 0 total errors (errmax= 2.0072e-07) d(Edge)/d(x5) check complete with 0 total errors (errmax= 7.6147e-12) d(Node)/d(x5) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y5" for ibody=7 d(Face)/d(y5) check complete with 0 total errors (errmax= 1.3470e-07) d(Edge)/d(y5) check complete with 0 total errors (errmax= 3.4304e-12) d(Node)/d(y5) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x6" for ibody=7 d(Face)/d(x6) check complete with 0 total errors (errmax= 1.5742e-07) d(Edge)/d(x6) check complete with 0 total errors (errmax= 4.6832e-12) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y6" for ibody=7 d(Face)/d(y6) check complete with 0 total errors (errmax= 3.5527e-08) d(Edge)/d(y6) check complete with 0 total errors (errmax= 2.3855e-13) d(Node)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x7" for ibody=7 d(Face)/d(x7) check complete with 0 total errors (errmax= 6.6541e-08) d(Edge)/d(x7) check complete with 0 total errors (errmax= 8.3653e-13) d(Node)/d(x7) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y7" for ibody=7 d(Face)/d(y7) check complete with 0 total errors (errmax= 2.4426e-10) d(Edge)/d(y7) check complete with 0 total errors (errmax= 1.1867e-17) d(Node)/d(y7) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.070 sec Sensitivity checks complete with 0 total errors (max geom err= 2.3340e-06) with 0 suppressions real 0m0.785s user 0m0.702s sys 0m0.228s ++ set +x -------------------------------------------------------------------------------------------------- ( 242 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "D" for ibody=7 d(Face)/d(D) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.2662e-18) d(Node)/d(D) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y1" for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 6.4871e-07) d(Edge)/d(y1) check complete with 0 total errors (errmax= 1.8939e-11) d(Node)/d(y1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z1" for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 5.7660e-07) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.4961e-11) d(Node)/d(z1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y2" for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 8.6497e-07) d(Edge)/d(y2) check complete with 0 total errors (errmax= 3.3670e-11) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z2" for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 5.8402e-07) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.5347e-11) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y3" for ibody=7 d(Face)/d(y3) check complete with 0 total errors (errmax= 1.1133e-06) d(Edge)/d(y3) check complete with 0 total errors (errmax= 5.5777e-11) d(Node)/d(y3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z3" for ibody=7 d(Face)/d(z3) check complete with 0 total errors (errmax= 1.6971e-06) d(Edge)/d(z3) check complete with 0 total errors (errmax= 1.2960e-10) d(Node)/d(z3) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y4" for ibody=7 d(Face)/d(y4) check complete with 0 total errors (errmax= 1.0953e-06) d(Edge)/d(y4) check complete with 0 total errors (errmax= 5.3979e-11) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z4" for ibody=7 d(Face)/d(z4) check complete with 0 total errors (errmax= 2.3340e-06) d(Edge)/d(z4) check complete with 0 total errors (errmax= 2.4514e-10) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y5" for ibody=7 d(Face)/d(y5) check complete with 0 total errors (errmax= 2.0072e-07) d(Edge)/d(y5) check complete with 0 total errors (errmax= 7.6147e-12) d(Node)/d(y5) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "z5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z5" for ibody=7 d(Face)/d(z5) check complete with 0 total errors (errmax= 1.3470e-07) d(Edge)/d(z5) check complete with 0 total errors (errmax= 3.4304e-12) d(Node)/d(z5) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y6" for ibody=7 d(Face)/d(y6) check complete with 0 total errors (errmax= 1.5742e-07) d(Edge)/d(y6) check complete with 0 total errors (errmax= 4.6832e-12) d(Node)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z6" for ibody=7 d(Face)/d(z6) check complete with 0 total errors (errmax= 3.5527e-08) d(Edge)/d(z6) check complete with 0 total errors (errmax= 2.3855e-13) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y7" for ibody=7 d(Face)/d(y7) check complete with 0 total errors (errmax= 6.6541e-08) d(Edge)/d(y7) check complete with 0 total errors (errmax= 8.3653e-13) d(Node)/d(y7) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "z7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z7" for ibody=7 d(Face)/d(z7) check complete with 0 total errors (errmax= 2.4426e-10) d(Edge)/d(z7) check complete with 0 total errors (errmax= 1.1867e-17) d(Node)/d(z7) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.083 sec Sensitivity checks complete with 0 total errors (max geom err= 2.3340e-06) with 0 suppressions real 0m0.860s user 0m0.741s sys 0m0.251s ++ set +x -------------------------------------------------------------------------------------------------- ( 243 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "D" for ibody=7 d(Face)/d(D) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.2662e-18) d(Node)/d(D) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z1" for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 6.4871e-07) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.8939e-11) d(Node)/d(z1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x1" for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 5.7660e-07) d(Edge)/d(x1) check complete with 0 total errors (errmax= 1.4961e-11) d(Node)/d(x1) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z2" for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 8.6497e-07) d(Edge)/d(z2) check complete with 0 total errors (errmax= 3.3670e-11) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x2" for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 5.8402e-07) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.5347e-11) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z3" for ibody=7 d(Face)/d(z3) check complete with 0 total errors (errmax= 1.1133e-06) d(Edge)/d(z3) check complete with 0 total errors (errmax= 5.5777e-11) d(Node)/d(z3) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x3" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x3" for ibody=7 d(Face)/d(x3) check complete with 0 total errors (errmax= 1.6971e-06) d(Edge)/d(x3) check complete with 0 total errors (errmax= 1.2960e-10) d(Node)/d(x3) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z4" for ibody=7 d(Face)/d(z4) check complete with 0 total errors (errmax= 1.0953e-06) d(Edge)/d(z4) check complete with 0 total errors (errmax= 5.3979e-11) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x4" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x4" for ibody=7 d(Face)/d(x4) check complete with 0 total errors (errmax= 2.3340e-06) d(Edge)/d(x4) check complete with 0 total errors (errmax= 2.4514e-10) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z5" for ibody=7 d(Face)/d(z5) check complete with 0 total errors (errmax= 2.0072e-07) d(Edge)/d(z5) check complete with 0 total errors (errmax= 7.6147e-12) d(Node)/d(z5) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "x5" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x5" for ibody=7 d(Face)/d(x5) check complete with 0 total errors (errmax= 1.3470e-07) d(Edge)/d(x5) check complete with 0 total errors (errmax= 3.4304e-12) d(Node)/d(x5) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z6" for ibody=7 d(Face)/d(z6) check complete with 0 total errors (errmax= 1.5742e-07) d(Edge)/d(z6) check complete with 0 total errors (errmax= 4.6832e-12) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "x6" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x6" for ibody=7 d(Face)/d(x6) check complete with 0 total errors (errmax= 3.5527e-08) d(Edge)/d(x6) check complete with 0 total errors (errmax= 2.3855e-13) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z7" for ibody=7 d(Face)/d(z7) check complete with 0 total errors (errmax= 6.6541e-08) d(Edge)/d(z7) check complete with 0 total errors (errmax= 8.3653e-13) d(Node)/d(z7) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "x7" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x7" for ibody=7 d(Face)/d(x7) check complete with 0 total errors (errmax= 2.4426e-10) d(Edge)/d(x7) check complete with 0 total errors (errmax= 1.1867e-17) d(Node)/d(x7) check complete with 0 total errors (errmax= 8.0701e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.080 sec Sensitivity checks complete with 0 total errors (max geom err= 2.3340e-06) with 0 suppressions real 0m0.980s user 0m0.896s sys 0m0.259s ++ set +x -------------------------------------------------------------------------------------------------- ( 244 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYa.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.043 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.971s user 0m0.935s sys 0m0.246s ++ set +x -------------------------------------------------------------------------------------------------- ( 245 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYb.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.034 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.967s user 0m0.914s sys 0m0.286s ++ set +x -------------------------------------------------------------------------------------------------- ( 246 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYc.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.017 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.625s user 0m0.342s sys 0m0.306s ++ set +x -------------------------------------------------------------------------------------------------- ( 247 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYd.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.013 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.525s user 0m0.301s sys 0m0.234s ++ set +x -------------------------------------------------------------------------------------------------- ( 248 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYe.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.029 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.928s user 0m0.922s sys 0m0.261s ++ set +x -------------------------------------------------------------------------------------------------- ( 249 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYf.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.045 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.991s user 0m0.895s sys 0m0.288s ++ set +x -------------------------------------------------------------------------------------------------- ( 250 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYg.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 9.4713e-12) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 9.4713e-12) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.017 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.554s user 0m0.299s sys 0m0.279s ++ set +x -------------------------------------------------------------------------------------------------- ( 251 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYh.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "L" for ibody=9 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "H" for ibody=9 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "S" for ibody=9 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "T" for ibody=9 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "D" for ibody=9 d(Face)/d(D) check complete with 0 total errors (errmax= 1.5267e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "x0" for ibody=9 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "y0" for ibody=9 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "z0" for ibody=9 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.5267e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.511s user 0m0.273s sys 0m0.258s ++ set +x -------------------------------------------------------------------------------------------------- ( 252 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYi.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.036 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.918s user 0m0.827s sys 0m0.303s ++ set +x -------------------------------------------------------------------------------------------------- ( 253 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYj.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "L" for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 1.0128e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "H" for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "S" for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 1.2634e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 7.2462e-19) d(Node)/d(S) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "T" for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "D" for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 7.0789e-12) d(Edge)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 7.0789e-12) d(Edge)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 7.0789e-12) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.021 sec Sensitivity checks complete with 0 total errors (max geom err= 1.2634e-10) with 0 suppressions real 0m0.806s user 0m0.673s sys 0m0.301s ++ set +x -------------------------------------------------------------------------------------------------- ( 254 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYk.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "L" for ibody=9 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "H" for ibody=9 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "S" for ibody=9 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "T" for ibody=9 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "D" for ibody=9 d(Face)/d(D) check complete with 0 total errors (errmax= 8.1365e-12) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "x0" for ibody=9 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "y0" for ibody=9 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "z0" for ibody=9 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.1365e-12) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.506s user 0m0.261s sys 0m0.261s ++ set +x -------------------------------------------------------------------------------------------------- ( 255 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYl.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "L" for ibody=9 d(Face)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "H" for ibody=9 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "S" for ibody=9 d(Face)/d(S) check complete with 0 total errors (errmax= 7.4456e-11) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.0660e-19) d(Node)/d(S) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "T" for ibody=9 d(Face)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "D" for ibody=9 d(Face)/d(D) check complete with 0 total errors (errmax= 1.4967e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "x0" for ibody=9 d(Face)/d(x0) check complete with 0 total errors (errmax= 1.4967e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "y0" for ibody=9 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.4967e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=9 Computing finite difference sensitivities for ibody=9 Comparing geometric sensitivities wrt "z0" for ibody=9 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.4967e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.008 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m0.480s user 0m0.231s sys 0m0.255s ++ set +x -------------------------------------------------------------------------------------------------- ( 256 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYm.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "L" for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "H" for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 6.6249e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "S" for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "T" for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 4.2815e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "D" for ibody=12 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x0" for ibody=12 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "y0" for ibody=12 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 6.1768e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "z0" for ibody=12 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.045 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.909s user 0m0.873s sys 0m0.265s ++ set +x -------------------------------------------------------------------------------------------------- ( 257 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYn.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "L" for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "H" for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.3992e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "S" for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 4.7595e-11) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.0811e-19) d(Node)/d(S) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "T" for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 7.1468e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 5.6269e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "D" for ibody=12 d(Face)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x0" for ibody=12 d(Face)/d(x0) check complete with 0 total errors (errmax= 1.4787e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "y0" for ibody=12 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.4787e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "z0" for ibody=12 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.4787e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.034 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m1.011s user 0m0.977s sys 0m0.266s ++ set +x -------------------------------------------------------------------------------------------------- ( 258 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYo.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 6.6249e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) d(Edge)/d(S) check complete with 0 total errors (errmax= 3.9626e-18) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 4.2815e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 1.3126e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 6.1768e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.3126e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 4.2637e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.024 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9675e-10) with 0 suppressions real 0m0.569s user 0m0.273s sys 0m0.315s ++ set +x -------------------------------------------------------------------------------------------------- ( 259 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYp.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.0567e-19) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.3992e-19) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 4.5069e-11) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.0811e-19) d(Node)/d(S) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 7.3858e-11) d(Edge)/d(T) check complete with 0 total errors (errmax= 5.6269e-19) d(Node)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 2.2472e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.5041e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 2.2472e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2472e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 2.2472e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m0.538s user 0m0.283s sys 0m0.266s ++ set +x -------------------------------------------------------------------------------------------------- ( 260 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYq.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "L" for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 1.2991e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.8147e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "H" for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 2.9601e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.4512e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "S" for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 1.1757e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.3140e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "T" for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 2.7958e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.2926e-15) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "D" for ibody=12 d(Face)/d(D) check complete with 0 total errors (errmax= 5.7413e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.4697e-18) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x0" for ibody=12 d(Face)/d(x0) check complete with 0 total errors (errmax= 1.1292e-10) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.9834e-18) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "y0" for ibody=12 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.7924e-10) d(Edge)/d(y0) check complete with 0 total errors (errmax= 4.9035e-18) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "z0" for ibody=12 d(Face)/d(z0) check complete with 0 total errors (errmax= 5.7413e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 1.4697e-18) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.069 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9601e-09) with 0 suppressions real 0m0.994s user 0m0.919s sys 0m0.289s ++ set +x -------------------------------------------------------------------------------------------------- ( 261 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYr.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "L" for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 1.2535e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.5973e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "H" for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 3.0570e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.5466e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "S" for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 1.1592e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.2332e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "T" for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 2.7172e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.2188e-15) d(Node)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "D" for ibody=12 d(Face)/d(D) check complete with 0 total errors (errmax= 5.0378e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 8.6616e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "x0" for ibody=12 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.0378e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "y0" for ibody=12 d(Face)/d(y0) check complete with 0 total errors (errmax= 5.0378e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=12 Computing finite difference sensitivities for ibody=12 Comparing geometric sensitivities wrt "z0" for ibody=12 d(Face)/d(z0) check complete with 0 total errors (errmax= 5.0378e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.049 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0570e-09) with 0 suppressions real 0m0.993s user 0m0.972s sys 0m0.271s ++ set +x -------------------------------------------------------------------------------------------------- ( 262 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYs.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 1.3007e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.8147e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 2.9609e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.4512e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 1.1783e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.3140e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 2.9675e-10) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 2.7964e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.2926e-15) d(Node)/d(T) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 4.2730e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.4697e-18) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 1.0859e-10) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.9834e-18) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.7656e-10) d(Edge)/d(y0) check complete with 0 total errors (errmax= 4.9035e-18) d(Node)/d(y0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.2730e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 1.4697e-18) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.052 sec Sensitivity checks complete with 0 total errors (max geom err= 2.9609e-09) with 0 suppressions real 0m0.616s user 0m0.355s sys 0m0.280s ++ set +x -------------------------------------------------------------------------------------------------- ( 263 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYt.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "L" for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 1.2809e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.7097e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "H" for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 3.0607e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.5497e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "S" for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 1.1614e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.2374e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 4.0350e-11) ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "T" for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 2.7238e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.2247e-15) d(Node)/d(T) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "D" for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 1.5961e-11) d(Edge)/d(D) check complete with 0 total errors (errmax= 8.6616e-19) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "x0" for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 1.5961e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "y0" for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.5961e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=11 Computing finite difference sensitivities for ibody=11 Comparing geometric sensitivities wrt "z0" for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.5961e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.028 sec Sensitivity checks complete with 0 total errors (max geom err= 3.0607e-09) with 0 suppressions real 0m0.541s user 0m0.294s sys 0m0.262s ++ set +x -------------------------------------------------------------------------------------------------- ( 264 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYu.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.319 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m0.928s user 0m0.872s sys 0m0.277s ++ set +x -------------------------------------------------------------------------------------------------- ( 265 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYv.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=14 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.382 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m1.171s user 0m1.151s sys 0m0.300s ++ set +x -------------------------------------------------------------------------------------------------- ( 266 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYw.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.155 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m0.637s user 0m0.371s sys 0m0.284s ++ set +x -------------------------------------------------------------------------------------------------- ( 267 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYx.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "L" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "H" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "S" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "T" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=13 ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.146 sec Sensitivity checks complete with 0 total errors (max geom err= 2.0000e-20) with 0 suppressions real 0m0.592s user 0m0.360s sys 0m0.253s ++ set +x -------------------------------------------------------------------------------------------------- ( 268 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYy.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "D" for ibody=3 d(Face)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "x0" for ibody=3 d(Face)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(x0) check complete with 0 total errors (errmax= 5.2094e-20) d(Node)/d(x0) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "y0" for ibody=3 d(Face)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(y0) check complete with 0 total errors (errmax= 4.5099e-20) d(Node)/d(y0) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "z0" for ibody=3 d(Face)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.000 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m0.414s user 0m0.152s sys 0m0.260s ++ set +x -------------------------------------------------------------------------------------------------- ( 269 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYz.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "D" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "D" for ibody=3 d(Face)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(D) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "x0" for ibody=3 d(Face)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(x0) check complete with 0 total errors (errmax= 5.2094e-20) d(Node)/d(x0) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "y0" for ibody=3 d(Face)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(y0) check complete with 0 total errors (errmax= 4.5099e-20) d(Node)/d(y0) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=3 Computing finite difference sensitivities for ibody=3 Comparing geometric sensitivities wrt "z0" for ibody=3 d(Face)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.000 sec Sensitivity checks complete with 0 total errors (max geom err= 4.7497e-11) with 0 suppressions real 0m0.382s user 0m0.132s sys 0m0.249s ++ set +x -------------------------------------------------------------------------------------------------- ( 270 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ1.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xb" for ibody=7 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "yb" for ibody=7 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.5634e-20) d(Node)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "zb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zb" for ibody=7 d(Face)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zb) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x0" for ibody=7 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y0" for ibody=7 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z0" for ibody=7 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x1" for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y1" for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 5.7882e-21) d(Node)/d(y1) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z1" for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "r1" for ibody=7 d(Face)/d(r1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(r1) check complete with 0 total errors (errmax= 5.2386e-20) d(Node)/d(r1) check complete with 0 total errors (errmax= 4.9945e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x2" for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y2" for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.5447e-11) d(Edge)/d(y2) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(y2) check complete with 0 total errors (errmax= 1.5447e-11) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z2" for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "r2" for ibody=7 d(Face)/d(r2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(r2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(r2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "unused" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "unused" for ibody=7 d(Face)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.152 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m3.080s user 0m3.870s sys 0m0.387s ++ set +x -------------------------------------------------------------------------------------------------- ( 271 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ2.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xb" for ibody=10 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "yb" for ibody=10 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.5634e-20) d(Node)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "zb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zb" for ibody=10 d(Face)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zb) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x1" for ibody=10 d(Face)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y1" for ibody=10 d(Face)/d(y1) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 5.7882e-21) d(Node)/d(y1) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z1" for ibody=10 d(Face)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "r1" for ibody=10 d(Face)/d(r1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(r1) check complete with 0 total errors (errmax= 5.2386e-20) d(Node)/d(r1) check complete with 0 total errors (errmax= 4.9945e-11) ********************************************************* Starting geometric sensitivity wrt "c1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "c1" for ibody=10 d(Face)/d(c1) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(c1) check complete with 0 total errors (errmax= 5.7882e-21) d(Node)/d(c1) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x2" for ibody=10 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y2" for ibody=10 d(Face)/d(y2) check complete with 0 total errors (errmax= 5.7740e-13) d(Edge)/d(y2) check complete with 0 total errors (errmax= 5.7882e-21) d(Node)/d(y2) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z2" for ibody=10 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "r2" for ibody=10 d(Face)/d(r2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(r2) check complete with 0 total errors (errmax= 5.2767e-20) d(Node)/d(r2) check complete with 0 total errors (errmax= 5.7298e-11) ********************************************************* Starting geometric sensitivity wrt "c2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "c2" for ibody=10 d(Face)/d(c2) check complete with 0 total errors (errmax= 5.7740e-13) d(Edge)/d(c2) check complete with 0 total errors (errmax= 1.5495e-21) d(Node)/d(c2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "unused" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "unused" for ibody=10 d(Face)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.219 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m5.173s user 0m7.773s sys 0m0.539s ++ set +x -------------------------------------------------------------------------------------------------- ( 272 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ3.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xb" for ibody=7 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "yb" for ibody=7 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.5634e-20) d(Node)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "zb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zb" for ibody=7 d(Face)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x0" for ibody=7 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y0" for ibody=7 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z0" for ibody=7 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x1" for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.1966e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y1" for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 7.9208e-12) d(Edge)/d(y1) check complete with 0 total errors (errmax= 7.2286e-22) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z1" for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "r1" for ibody=7 d(Face)/d(r1) check complete with 0 total errors (errmax= 2.5271e-11) d(Edge)/d(r1) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(r1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x2" for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.8972e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.3599e-20) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y2" for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 7.9685e-12) d(Edge)/d(y2) check complete with 0 total errors (errmax= 7.2286e-22) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z2" for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "r2" for ibody=7 d(Face)/d(r2) check complete with 0 total errors (errmax= 2.3820e-11) d(Edge)/d(r2) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(r2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "unused" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "unused" for ibody=7 d(Face)/d(unused) check complete with 0 total errors (errmax= 7.9208e-12) d(Edge)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.123 sec Sensitivity checks complete with 0 total errors (max geom err= 8.0701e-11) with 0 suppressions real 0m2.904s user 0m3.416s sys 0m0.393s ++ set +x -------------------------------------------------------------------------------------------------- ( 273 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ4.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xb" for ibody=10 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "yb" for ibody=10 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.5634e-20) d(Node)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "zb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zb" for ibody=10 d(Face)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x1" for ibody=10 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.2568e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 4.7375e-20) d(Node)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y1" for ibody=10 d(Face)/d(y1) check complete with 0 total errors (errmax= 8.7518e-12) d(Edge)/d(y1) check complete with 0 total errors (errmax= 7.0012e-24) d(Node)/d(y1) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z1" for ibody=10 d(Face)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(z1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "r1" for ibody=10 d(Face)/d(r1) check complete with 0 total errors (errmax= 8.8834e-08) d(Edge)/d(r1) check complete with 0 total errors (errmax= 1.2095e-12) d(Node)/d(r1) check complete with 0 total errors (errmax= 2.4000e-07) ********************************************************* Starting geometric sensitivity wrt "c1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "c1" for ibody=10 d(Face)/d(c1) check complete with 0 total errors (errmax= 5.5514e-07) d(Edge)/d(c1) check complete with 0 total errors (errmax= 4.7242e-11) d(Node)/d(c1) check complete with 0 total errors (errmax= 1.4999e-06) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x2" for ibody=10 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.8972e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 5.7882e-21) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y2" for ibody=10 d(Face)/d(y2) check complete with 0 total errors (errmax= 8.7641e-12) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.5495e-21) d(Node)/d(y2) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z2" for ibody=10 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.3677e-19) d(Node)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "r2" for ibody=10 d(Face)/d(r2) check complete with 0 total errors (errmax= 5.5043e-08) d(Edge)/d(r2) check complete with 0 total errors (errmax= 1.2091e-12) d(Node)/d(r2) check complete with 0 total errors (errmax= 2.4002e-07) ********************************************************* Starting geometric sensitivity wrt "c2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "c2" for ibody=10 d(Face)/d(c2) check complete with 0 total errors (errmax= 3.4371e-07) d(Edge)/d(c2) check complete with 0 total errors (errmax= 4.7240e-11) d(Node)/d(c2) check complete with 0 total errors (errmax= 1.4999e-06) ********************************************************* Starting geometric sensitivity wrt "unused" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "unused" for ibody=10 d(Face)/d(unused) check complete with 0 total errors (errmax= 8.7518e-12) d(Edge)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.199 sec Sensitivity checks complete with 0 total errors (max geom err= 1.4999e-06) with 0 suppressions real 0m5.463s user 0m7.061s sys 0m0.473s ++ set +x -------------------------------------------------------------------------------------------------- ( 274 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ5.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "xb" for ibody=7 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "yb" for ibody=7 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.5634e-20) d(Node)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "zb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "zb" for ibody=7 d(Face)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x0" for ibody=7 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y0" for ibody=7 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z0" for ibody=7 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 5.1604e-11) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x1" for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.1751e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 3.4183e-20) d(Node)/d(x1) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y1" for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 7.7628e-12) d(Edge)/d(y1) check complete with 0 total errors (errmax= 7.2286e-22) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z1" for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 1.7569e-10) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.3891e-18) d(Node)/d(z1) check complete with 0 total errors (errmax= 1.7569e-10) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "r1" for ibody=7 d(Face)/d(r1) check complete with 0 total errors (errmax= 6.4099e-11) d(Edge)/d(r1) check complete with 0 total errors (errmax= 2.1941e-19) d(Node)/d(r1) check complete with 0 total errors (errmax= 7.9778e-11) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "x2" for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.7330e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 2.1759e-20) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "y2" for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 7.7591e-12) d(Edge)/d(y2) check complete with 0 total errors (errmax= 7.2286e-22) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "z2" for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(z2) check complete with 0 total errors (errmax= 6.7199e-11) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "r2" for ibody=7 d(Face)/d(r2) check complete with 0 total errors (errmax= 6.4099e-11) d(Edge)/d(r2) check complete with 0 total errors (errmax= 2.0799e-19) d(Node)/d(r2) check complete with 0 total errors (errmax= 7.9778e-11) ********************************************************* Starting geometric sensitivity wrt "unused" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=7 Computing finite difference sensitivities for ibody=7 Comparing geometric sensitivities wrt "unused" for ibody=7 d(Face)/d(unused) check complete with 0 total errors (errmax= 7.7591e-12) d(Edge)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.149 sec Sensitivity checks complete with 0 total errors (max geom err= 1.7569e-10) with 0 suppressions real 0m3.238s user 0m3.576s sys 0m0.423s ++ set +x -------------------------------------------------------------------------------------------------- ( 275 / 275 ) ++ /jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ6.csm -geom -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting geometric sensitivity wrt "xb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "xb" for ibody=10 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "yb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "yb" for ibody=10 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.5634e-20) d(Node)/d(yb) check complete with 0 total errors (errmax= 1.6602e-11) ********************************************************* Starting geometric sensitivity wrt "zb" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "zb" for ibody=10 d(Face)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(zb) check complete with 0 total errors (errmax= 1.0152e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "x0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x0" for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) d(Edge)/d(x0) check complete with 0 total errors (errmax= 2.9307e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y0" for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0980e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 4.7497e-11) ********************************************************* Starting geometric sensitivity wrt "z0" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z0" for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 4.2491e-08) d(Edge)/d(z0) check complete with 0 total errors (errmax= 3.2651e-13) d(Node)/d(z0) check complete with 0 total errors (errmax= 4.2770e-07) ********************************************************* Starting geometric sensitivity wrt "x1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x1" for ibody=10 d(Face)/d(x1) check complete with 0 total errors (errmax= 1.9103e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 3.5352e-20) d(Node)/d(x1) check complete with 0 total errors (errmax= 8.1825e-11) ********************************************************* Starting geometric sensitivity wrt "y1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y1" for ibody=10 d(Face)/d(y1) check complete with 0 total errors (errmax= 1.1510e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 2.0288e-22) d(Node)/d(y1) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "z1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z1" for ibody=10 d(Face)/d(z1) check complete with 0 total errors (errmax= 4.2482e-08) d(Edge)/d(z1) check complete with 0 total errors (errmax= 3.2640e-13) d(Node)/d(z1) check complete with 0 total errors (errmax= 4.2764e-07) ********************************************************* Starting geometric sensitivity wrt "r1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "r1" for ibody=10 d(Face)/d(r1) check complete with 0 total errors (errmax= 2.4219e-07) d(Edge)/d(r1) check complete with 0 total errors (errmax= 8.2929e-12) d(Node)/d(r1) check complete with 0 total errors (errmax= 1.7107e-06) ********************************************************* Starting geometric sensitivity wrt "c1" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "c1" for ibody=10 d(Face)/d(c1) check complete with 0 total errors (errmax= 1.5879e-06) d(Edge)/d(c1) check complete with 0 total errors (errmax= 5.3089e-10) d(Node)/d(c1) check complete with 0 total errors (errmax= 1.0692e-05) ********************************************************* Starting geometric sensitivity wrt "x2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "x2" for ibody=10 d(Face)/d(x2) check complete with 0 total errors (errmax= 3.4451e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 4.4493e-20) d(Node)/d(x2) check complete with 0 total errors (errmax= 8.0701e-11) ********************************************************* Starting geometric sensitivity wrt "y2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "y2" for ibody=10 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.1493e-11) d(Edge)/d(y2) check complete with 0 total errors (errmax= 6.6405e-22) d(Node)/d(y2) check complete with 0 total errors (errmax= 5.7740e-13) ********************************************************* Starting geometric sensitivity wrt "z2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "z2" for ibody=10 d(Face)/d(z2) check complete with 0 total errors (errmax= 4.1670e-08) d(Edge)/d(z2) check complete with 0 total errors (errmax= 3.2640e-13) d(Node)/d(z2) check complete with 0 total errors (errmax= 4.2764e-07) ********************************************************* Starting geometric sensitivity wrt "r2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "r2" for ibody=10 d(Face)/d(r2) check complete with 0 total errors (errmax= 1.8683e-07) d(Edge)/d(r2) check complete with 0 total errors (errmax= 8.2993e-12) d(Node)/d(r2) check complete with 0 total errors (errmax= 1.7107e-06) ********************************************************* Starting geometric sensitivity wrt "c2" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "c2" for ibody=10 d(Face)/d(c2) check complete with 0 total errors (errmax= 1.3747e-06) d(Edge)/d(c2) check complete with 0 total errors (errmax= 5.3088e-10) d(Node)/d(c2) check complete with 0 total errors (errmax= 1.0692e-05) ********************************************************* Starting geometric sensitivity wrt "unused" ********************************************************* Propagating velocities throughout feature tree Computing analytic sensitivities (if possible) for ibody=10 Computing finite difference sensitivities for ibody=10 Comparing geometric sensitivities wrt "unused" for ibody=10 d(Face)/d(unused) check complete with 0 total errors (errmax= 1.1493e-11) d(Edge)/d(unused) check complete with 0 total errors (errmax= 1.7333e-22) d(Node)/d(unused) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetVel -> 0.233 sec Sensitivity checks complete with 0 total errors (max geom err= 1.0692e-05) with 0 suppressions real 0m6.298s user 0m7.713s sys 0m0.599s ++ set +x [GNU C Compiler (gcc)] Parsing console log (workspace: '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64') [GNU C Compiler (gcc)] Successfully parsed console log [GNU C Compiler (gcc)] -> found 912 issues (skipped 182 duplicates) [GNU C Compiler (gcc)] Post processing issues on 'reynolds' with source code encoding 'UTF-8' [GNU C Compiler (gcc)] Creating SCM blamer to obtain author and commit information for affected files [GNU C Compiler (gcc)] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM [GNU C Compiler (gcc)] -> Git blamer could not be created for SCM 'hudson.scm.SubversionSCM@4b2f00d3' in working tree '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [GNU C Compiler (gcc)] -> No suitable blamer found. [GNU C Compiler (gcc)] Resolving file names for all issues in workspace '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [GNU C Compiler (gcc)] -> resolved paths in source directory (11 found, 0 not found) [GNU C Compiler (gcc)] Resolving module names from module definitions (build.xml, pom.xml, or Manifest.mf files) [GNU C Compiler (gcc)] -> resolved module names for 912 issues [GNU C Compiler (gcc)] Resolving package names (or namespaces) by parsing the affected files [GNU C Compiler (gcc)] -> resolved package names of 11 affected files [GNU C Compiler (gcc)] No filter has been set, publishing all 912 issues [GNU C Compiler (gcc)] Creating fingerprints for all affected code blocks to track issues over different builds [GNU C Compiler (gcc)] -> created fingerprints for 912 issues (skipped 0 issues) [GNU C Compiler (gcc)] Copying affected files to Jenkins' build folder '/var/lib/jenkins/jobs/ESP_UndefinedOcsm/configurations/axis-CASREV/7.8/axis-ESPTEST/sensCSM%2Fgeom/axis-ESP_ARCH/LINUX64/axis-buildnode/reynolds/builds/112/files-with-issues' [GNU C Compiler (gcc)] -> 0 copied, 912 not in workspace, 0 not-found, 0 with I/O error [GNU C Compiler (gcc)] Skipping cleaning of source code files in old builds [GNU C Compiler (gcc)] Repository miner is not configured, skipping repository mining [Clang] Parsing console log (workspace: '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64') [Clang] -> found 870 issues (skipped 224 duplicates) [Clang] Parsing console log (workspace: '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64') [Clang] -> found 870 issues (skipped 224 duplicates) [Clang] Successfully parsed console log [Clang] -> found 870 issues (skipped 224 duplicates) [Clang] Parsing console log (workspace: '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64') [Clang] Post processing issues on 'reynolds' with source code encoding 'UTF-8' [Clang] Creating SCM blamer to obtain author and commit information for affected files [Clang] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM [Clang] -> Git blamer could not be created for SCM 'hudson.scm.SubversionSCM@4b2f00d3' in working tree '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [Clang] -> No suitable blamer found. [Clang] Resolving file names for all issues in workspace '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [Clang] -> resolved paths in source directory (11 found, 0 not found) [Clang] Resolving module names from module definitions (build.xml, pom.xml, or Manifest.mf files) [Clang] -> resolved module names for 870 issues [Clang] Resolving package names (or namespaces) by parsing the affected files [Clang] -> resolved package names of 11 affected files [Clang] No filter has been set, publishing all 870 issues [Clang] Creating fingerprints for all affected code blocks to track issues over different builds [Clang] -> created fingerprints for 870 issues (skipped 0 issues) [Clang] Copying affected files to Jenkins' build folder '/var/lib/jenkins/jobs/ESP_UndefinedOcsm/configurations/axis-CASREV/7.8/axis-ESPTEST/sensCSM%2Fgeom/axis-ESP_ARCH/LINUX64/axis-buildnode/reynolds/builds/112/files-with-issues' [Clang] -> 0 copied, 870 not in workspace, 0 not-found, 0 with I/O error [Clang] Skipping cleaning of source code files in old builds [Clang] Repository miner is not configured, skipping repository mining [Static Analysis] Successfully parsed console log [Static Analysis] -> found 870 issues (skipped 224 duplicates) [Static Analysis] Parsing console log (workspace: '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64') [Static Analysis] Successfully parsed console log [Static Analysis] -> found 912 issues (skipped 182 duplicates) [Static Analysis] Post processing issues on 'reynolds' with source code encoding 'UTF-8' [Static Analysis] Creating SCM blamer to obtain author and commit information for affected files [Static Analysis] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM [Static Analysis] -> Git blamer could not be created for SCM 'hudson.scm.SubversionSCM@4b2f00d3' in working tree '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [Static Analysis] -> No suitable blamer found. [Static Analysis] Resolving file names for all issues in workspace '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [Static Analysis] -> resolved paths in source directory (11 found, 0 not found) [Static Analysis] Resolving module names from module definitions (build.xml, pom.xml, or Manifest.mf files) [Static Analysis] -> resolved module names for 912 issues [Static Analysis] Resolving package names (or namespaces) by parsing the affected files [Static Analysis] -> resolved package names of 11 affected files [Static Analysis] No filter has been set, publishing all 912 issues [Static Analysis] Creating fingerprints for all affected code blocks to track issues over different builds [Static Analysis] -> created fingerprints for 912 issues (skipped 0 issues) [Static Analysis] Copying affected files to Jenkins' build folder '/var/lib/jenkins/jobs/ESP_UndefinedOcsm/configurations/axis-CASREV/7.8/axis-ESPTEST/sensCSM%2Fgeom/axis-ESP_ARCH/LINUX64/axis-buildnode/reynolds/builds/112/files-with-issues' [Static Analysis] -> 0 copied, 912 not in workspace, 0 not-found, 0 with I/O error [Static Analysis] Skipping cleaning of source code files in old builds [Static Analysis] Repository miner is not configured, skipping repository mining [Static Analysis] Successfully parsed console log [Static Analysis] -> found 870 issues (skipped 224 duplicates) [Static Analysis] Successfully parsed console log [Static Analysis] -> found 870 issues (skipped 224 duplicates) [Static Analysis] Successfully parsed console log [Static Analysis] -> found 870 issues (skipped 224 duplicates) [Static Analysis] Parsing console log (workspace: '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64') [Static Analysis] Post processing issues on 'reynolds' with source code encoding 'UTF-8' [Static Analysis] Creating SCM blamer to obtain author and commit information for affected files [Static Analysis] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM [Static Analysis] -> Git blamer could not be created for SCM 'hudson.scm.SubversionSCM@4b2f00d3' in working tree '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [Static Analysis] -> No suitable blamer found. [Static Analysis] Resolving file names for all issues in workspace '/jenkins/workspace/ESP_UndefinedOcsm/7.8/sensCSM/geom/LINUX64' [Static Analysis] -> resolved paths in source directory (11 found, 0 not found) [Static Analysis] Resolving module names from module definitions (build.xml, pom.xml, or Manifest.mf files) [Static Analysis] -> resolved module names for 870 issues [Static Analysis] Resolving package names (or namespaces) by parsing the affected files [Static Analysis] -> resolved package names of 11 affected files [Static Analysis] No filter has been set, publishing all 870 issues [Static Analysis] Creating fingerprints for all affected code blocks to track issues over different builds [Static Analysis] -> created fingerprints for 870 issues (skipped 0 issues) [Static Analysis] Copying affected files to Jenkins' build folder '/var/lib/jenkins/jobs/ESP_UndefinedOcsm/configurations/axis-CASREV/7.8/axis-ESPTEST/sensCSM%2Fgeom/axis-ESP_ARCH/LINUX64/axis-buildnode/reynolds/builds/112/files-with-issues' [Static Analysis] -> 0 copied, 870 not in workspace, 0 not-found, 0 with I/O error [Static Analysis] Skipping cleaning of source code files in old builds [Static Analysis] Repository miner is not configured, skipping repository mining [Static Analysis] Reference build recorder is not configured [Static Analysis] No valid reference build found [Static Analysis] All reported issues will be considered outstanding [Static Analysis] No quality gates have been set - skipping [Static Analysis] Health report is disabled - skipping [Static Analysis] Created analysis result for 1782 issues (found 0 new issues, fixed 0 issues) [Static Analysis] Attaching ResultAction with ID 'analysis' to build 'ESP_UndefinedOcsm/CASREV=7.8,ESPTEST=sensCSM/geom,ESP_ARCH=LINUX64,buildnode=reynolds #112'. [Checks API] No suitable checks publisher found. [PostBuildScript] - [INFO] Executing post build scripts. [PostBuildScript] - [INFO] build step #0 should only be executed on MATRIX [WS-CLEANUP] Deleting project workspace... [WS-CLEANUP] done Finished: SUCCESS