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The Jenkins Controller is preparing for shutdown. No new builds can be started.
Started by upstream project "ESP_MemcheckOcsm" build number 748 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64 [WS-CLEANUP] Deleting project workspace... [WS-CLEANUP] Done Cleaning up /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/include/LINUX64 Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/EGADS_dot/src/circle1_dot Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/EGADS_dot/src/circle2_dot Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/EGADS_dot/src/naca_dot Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/EGADS_dot/src/ruled_naca_dot Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/UDP_UDF/data/tire Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/UDP_UDF/data/tire.o Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/UDP_UDF/data/tire.so Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/UDP_UDF/data/udpTire.o Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/Tutorial/egads2tri Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/Tutorial/egads2tri.o Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/Tutorial/tire Deleting /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/Tutorial/tire.o Updating svn+ssh://acdl.mit.edu/home/svnroot/EGADS at revision '2024-04-11T22:27:11.333 -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 At revision 2035 Cleaning up /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM at revision '2024-04-11T22:27:11.333 -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/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 At revision 2476 Cleaning up /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP Updating svn+ssh://acdl.mit.edu/home/svnroot/JenkinsESP at revision '2024-04-11T22:27:11.333 -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’ At revision 851 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’ No changes for svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM since the previous build No changes for svn+ssh://acdl.mit.edu/home/svnroot/JenkinsESP since the previous build [GitCheckoutListener] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM [LINUX64] $ /bin/bash -xe /tmp/jenkins8778180477502372081.sh + export NOCAPS=true + NOCAPS=true + rm -rf /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/data/Slugs + bash -x /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/ESP_Memcheck.sh + export PYTHON_COMPILE=_address + PYTHON_COMPILE=_address + source /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64 ++ ESP_BLOC=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64 ++ export ESP_ROOT=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64 ++ ESP_ROOT=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64 ++ export JULIA_DEPOT_PATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/julia ++ JULIA_DEPOT_PATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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* ]] ++ [[ _address != '' ]] ++ [[ reynolds == \r\e\y\n\o\l\d\s ]] ++ export PYTHONHOME=/home/jenkins/util/python/Python-3.11.6_address/install ++ PYTHONHOME=/home/jenkins/util/python/Python-3.11.6_address/install ++ export PATH=/home/jenkins/util/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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-7.7.0 ++ export CASROOT=/home/jenkins/util/ESP/OpenCASCADE-7.7.0 ++ CASROOT=/home/jenkins/util/ESP/OpenCASCADE-7.7.0 ++ export CASARCH=. ++ CASARCH=. ++ export LD_LIBRARY_PATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.7.0/lib:/home/jenkins/util/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.7.0/lib:/home/jenkins/util/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/CAPS/aim/pointwise/glyph ++ CAPS_GLYPH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PYTHONPATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ export PYTHONPATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/CAPS/pyCAPS:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/pyEGADS::/home/jenkins/util/SU2/SU2-v8.0.0/bin ++ PYTHONPATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/CAPS/pyCAPS:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/pyOCSM:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/include/python3.11d -I/home/jenkins/util/python/Python-3.11.6_address/install/include/python3.11d' ++ PYTHONINC='. -I/home/jenkins/util/python/Python-3.11.6_address/install/include/python3.11d -I/home/jenkins/util/python/Python-3.11.6_address/install/include/python3.11d' +++ python-config --help ++ [[ Usage: /home/jenkins/util/python/Python-3.11.6_address/install/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/python/Python-3.11.6_address/install/lib -lpython3.11d -ldl -lm ' ++ PYTHONLIB=' -L/home/jenkins/util/python/Python-3.11.6_address/install/lib -lpython3.11d -ldl -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/data ++ CSMDATA=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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 + '[' 7.7 == ']' /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/ESP_Memcheck.sh: line 18: [: 7.7: unary operator expected + export CASROOT=/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install + CASROOT=/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install + export LD_LIBRARY_PATH=/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.7.0/lib:/home/jenkins/util/python/Python-3.11.6_address/install/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-7.7/trunk/build_address/install/lib:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib:/home/jenkins/util/ESP/OpenCASCADE-7.7.0/lib:/home/jenkins/util/python/Python-3.11.6_address/install/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=address -fno-omit-frame-pointer -fuse-ld=gold' + ESPFLAGS='-fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold' + export 'ESPFFLAGS=-fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold' + ESPFFLAGS='-fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold' + export ESP_EXTERN_LIBS=/home/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM + ESP_EXTERN_LIBS=/home/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM + export LSAN_OPTIONS=suppressions=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/suppression_address.txt + LSAN_OPTIONS=suppressions=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/suppression_address.txt + export ASAN_OPTIONS=alloc_dealloc_mismatch=0:intercept_tls_get_addr=0 + ASAN_OPTIONS=alloc_dealloc_mismatch=0:intercept_tls_get_addr=0 + source /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/ESPbfr.sh ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ ++ tar -xvf /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv created virtual environment CPython3.11.6.final.0-64 in 1404ms creator CPython3Posix(dest=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/activate +++ '[' /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/activate = /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/ESP_Memcheck.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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv +++ '[' linux-gnu = cygwin ']' +++ '[' linux-gnu = msys ']' +++ export VIRTUAL_ENV +++ _OLD_VIRTUAL_PATH=/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test:/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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/python/Python-3.11.6_address/install/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv +++ VIRTUAL_ENV_PROMPT=venv +++ export VIRTUAL_ENV_PROMPT +++ '[' -z _ ']' +++ _OLD_VIRTUAL_PYTHONHOME=/home/jenkins/util/python/Python-3.11.6_address/install +++ unset PYTHONHOME +++ '[' -z '' ']' +++ _OLD_VIRTUAL_PS1= +++ PS1='(venv) ' +++ export PS1 +++ alias pydoc +++ true +++ hash -r ++ pip_install pip ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade pip /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions Requirement already satisfied: pip in ./ESP/venv/lib/python3.11/site-packages (24.0) ++ pip_install f90nml ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade f90nml /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade numpy /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade 'scipy!=1.9.2,!=1.9.3' /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade openmdao /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade cvxopt /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade dill /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade packaging /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions Requirement already satisfied: packaging in ./ESP/venv/lib/python3.11/site-packages (24.0) ++ pip_install matplotlib ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/bin/python -m pip install --only-binary all --upgrade matplotlib /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/venv/lib/python3.11/site-packages/pip/_internal/metadata/importlib/_envs.py:111: DeprecationWarning: pkg_resources is deprecated as an API. See https://setuptools.pypa.io/en/latest/pkg_resources.html from pip._vendor.pkg_resources import find_distributions 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/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM == '' ]] ++ '[' -d /home/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM ']' ++ cp /home/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM/intersectWake.so /home/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM/markWakeEdges.so /home/galbramc/workspace/SANSproto/build/memcheck_ESP_gnu11/src/UserInterfaces/capsAIM/sansLIPAIM.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src ++ make touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/LINUX64 rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/LINUX64 cp -p ../include/LINUX64 /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/LINUX64 touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/STANALYZER.make rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/STANALYZER.make cp -p ../include/STANALYZER.make /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/STANALYZER.make touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads.h cp -p ../include/egads.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads_dot.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads_dot.h cp -p ../include/egads_dot.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads_dot.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads.inc rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads.inc cp -p ../include/egads.inc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egads.inc touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsErrors.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsErrors.h cp -p ../include/egadsErrors.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsErrors.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsTypes.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsTypes.h cp -p ../include/egadsTypes.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsTypes.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/emp.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/emp.h cp -p ../include/emp.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/emp.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/prm.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/prm.h cp -p ../include/prm.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/prm.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsserver.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsserver.h cp -p ../include/wsserver.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsserver.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsserver.inc rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsserver.inc cp -p ../include/wsserver.inc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsserver.inc touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsss.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsss.h cp -p ../include/wsss.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/wsss.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsTris.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsTris.h cp -p egadsTris.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsTris.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsSplineFit.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsSplineFit.h cp -p egadsSplineFit.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsSplineFit.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsSplineVels.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsSplineVels.h cp -p egadsSplineVels.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsSplineVels.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsf90.inc rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsf90.inc cp -p ../include/egadsf90.inc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egadsf90.inc mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealD.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/SurrealD.h mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealD_Lazy.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/SurrealD_Lazy.h mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealD_Trad.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/SurrealD_Trad.h mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealS.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/SurrealS.h mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealS_Lazy.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/SurrealS_Lazy.h mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/SurrealS_Trad.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/SurrealS_Trad.h mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal cp Surreal/always_inline.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/Surreal/always_inline.h g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsGeom.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsGeom.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsHLevel.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsHLevel.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsTopo.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTopo.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsCopy.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsCopy.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsSpline.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSpline.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsIO.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsIO.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsSplineFit.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSplineFit.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsSkinning.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSkinning.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include \ -I. egadsTessSens.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTessSens.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include OCC/BRepLib_FuseEdges.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/BRepLib_FuseEdges.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsBase.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsBase.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsMemory.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsMemory.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsAttrs.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsAttrs.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsTess.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTess.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsTessInp.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTessInp.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsTris.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTris.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsQuads.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsQuads.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsFit.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsFit.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsRobust.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsRobust.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsSBO.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSBO.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap prmCfit.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/prmCfit.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap prmGrid.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/prmGrid.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap prmUV.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/prmUV.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsExport.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsExport.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsEffect.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsEffect.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I../util \ -I../util/uvmap egadsSolids.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSolids.o gcc-11 -g -fsanitize=address -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=7.7 -I../include ../util/emp.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/emp.o g++-11 -g -fsanitize=address -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=7.7 -IOCC -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I. -I../include \ ../util/evaluate.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/evaluate.o g++-11 -g -fsanitize=address -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=7.7 -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I. -I../include \ ../util/rational.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/rational.o gcc-11 -g -fsanitize=address -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=7.7 -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/inc -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/include/opencascade -I/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install -I../include -I../include -I../util \ ../util/regQuads.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/regQuads.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealD1 -O -std=c++11 -I. ../util/SurrealD1_btest.cpp /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealD1 SurrealD1_test_suite Complete! g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealD4 -O -std=c++11 -I. ../util/SurrealD4_btest.cpp /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealD4 SurrealD4_test_suite Complete! g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealS1 -O -std=c++11 -I. ../util/SurrealS1_btest.cpp /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealS1 SurrealS1_test_suite Complete! g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealS4 -O -std=c++11 -I. ../util/SurrealS4_btest.cpp ../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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SurrealS4 SurrealS4_test_suite Complete! make -C ../util make[1]: Entering directory '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/util' gcc-11 -g -fsanitize=address -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=7.7 uvmap/main/uvmap.c -Iuvmap \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/EG_uvmapFindUV.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/EG_uvmapFindUV.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/EG_uvmapGen.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/EG_uvmapGen.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/EG_uvmap_Read.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/EG_uvmap_Read.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/EG_uvmapStructFree.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/EG_uvmapStructFree.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/EG_uvmapTest.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/EG_uvmapTest.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/EG_uvmap_Write.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/EG_uvmap_Write.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_add.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_add.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_bnd_adj.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_bnd_adj.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_chk_area_uv.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_chk_area_uv.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_chk_edge_ratio.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_chk_edge_ratio.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_cpu_message.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_cpu_message.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_find_uv.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_find_uv.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_from_egads.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_from_egads.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_gen.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_gen.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_gen_uv.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_gen_uv.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_ibeibe.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_ibeibe.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_ibfibf.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_ibfibf.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_ibfin.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_ibfin.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_iccibe.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_iccibe.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_iccin.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_iccin.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_idibe.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_idibe.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_inibe.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_inibe.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_inl_uv_bnd.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_inl_uv_bnd.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_malloc.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_malloc.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_mben_disc.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_mben_disc.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_message.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_message.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_norm_uv.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_norm_uv.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_read.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_read.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_solve.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_solve.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_struct_tasks.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_struct_tasks.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_test.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_test.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_to_egads.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_to_egads.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_version.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_version.o gcc-11 -g -fsanitize=address -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=7.7 -I. uvmap/uvmap_write.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap_write.o gcc-11 -g -fsanitize=address -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=7.7 egadsUVmap.c -Iuvmap \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsUVmap.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libuvmap.a rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libuvmap.a (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libuvmap.a /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libuvmap.a gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/uvmap.exe /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/uvmap.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -luvmap -lrt -lm make[1]: Leaving directory '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/util' touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegads.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegads.so (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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-7.7/trunk/build_address/install/./lib -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -luvmap -lTKBool -lTKernel -lTKFeat -lTKBO -lTKGeomAlgo -lTKMath -lTKOffset -lTKPrim -lTKTopAlgo -lTKBRep -lTKG2d -lTKG3d -lTKGeomBase -lTKShHealing -lTKSTEP -lTKSTEP209 -lTKSTEPBase -lTKSTEPAttr -lTKXSBase -lTKIGES -lTKFillet -pthread -lm -lstdc++ -lrt ) touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadstatic.a rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadstatic.a cp /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libuvmap.a /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadstatic.a (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; \ ar rs /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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=address -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=7.7 -I../include fgadsBase.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsBase.o gcc-11 -g -fsanitize=address -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=7.7 -I../include fgadsMemory.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsMemory.o gcc-11 -g -fsanitize=address -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=7.7 -I../include fgadsAttrs.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsAttrs.o gcc-11 -g -fsanitize=address -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=7.7 -I../include fgadsTess.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsTess.o gcc-11 -g -fsanitize=address -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=7.7 -I../include fgadsHLevel.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsHLevel.o gcc-11 -g -fsanitize=address -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=7.7 -I../include fgadsGeom.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsGeom.o gcc-11 -g -fsanitize=address -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=7.7 -I../include fgadsTopo.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fgadsTopo.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libfgads.a rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libfgads.a (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libfgads.a touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libemp.a rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libemp.a (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libemp.a emp.o; ) ar: creating /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libemp.a *** EGADS Build Complete! *** ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/wvServer ++ make g++-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/map.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include base64-decode.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/base64-decode.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include handshake.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/handshake.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include client-handshake.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/client-handshake.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include libwebsockets.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/libwebsockets.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include extension-deflate-stream.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/extension-deflate-stream.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include md5.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/md5.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include extension-x-google-mux.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/extension-x-google-mux.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include parsers.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/parsers.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include extension.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/extension.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include sha-1.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sha-1.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include server.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/server.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include wv.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/wv.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include browserMessage.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/browserMessage.o gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include fwv.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fwv.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libwsserver.a rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libwsserver.a (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fwv.o; ) ar: creating /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libwsserver.a gcc-11 -g -fsanitize=address -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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/servertest.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/server /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/servertest.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libwsserver.a \ -lpthread -lz -lm touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libwsserver.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libwsserver.so (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/lite ++ make gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteBase.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteBase.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteMemory.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteMemory.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteGeom.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteGeom.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteTopo.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteTopo.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteAttrs.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteAttrs.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteImport.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteImport.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src -I../util/uvmap \ liteString.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteString.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I. -I../src \ ../src/egadsTess.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteTess.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I. -I../src \ ../src/egadsTris.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteTris.o gcc-11 -g -fsanitize=address -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=7.7 -I../include -I. -I../src \ ../src/egadsQuads.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteQuads.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I. -I../src \ -I../util ../src/egadsTessInp.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteTessInp.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I. -I../src \ ../util/evaluate.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/evaLite.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE ../util/rational.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/ratLite.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I../util \ ../util/regQuads.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteRegQuads.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I. -I../src \ ../src/egadsEffect.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteEffect.o gcc-11 -g -fsanitize=address -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=7.7 -DLITE -I../include -I. -I../src \ -I../util/uvmap liteUVmap.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/liteUVmap.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadslite.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadslite.so (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a (cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj; ar rs /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libegadslitestatic.a ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include addKnots.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/addKnots.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/addKnots /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/addKnots.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f agglom.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include agglom.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/agglom.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/agglom /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/agglom.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lrt -legads -lm ++ for file in `ls *.make` ++ make -f approx.make gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include approx.f -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/approx.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/approx /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/approx.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lfgads \ -legads -lstdc++ ++ for file in `ls *.make` ++ make -f blend.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include blend.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/blend.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/blend /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/blend.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f BSplineIGES.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include BSplineIGES.c -o \ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/BSplineIGES.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/BSplineIGES /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/BSplineIGES.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f chamfer.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include chamfer.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/chamfer.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/chamfer /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/chamfer.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f closure.make gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include closure.f -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/closure.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/closure /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/closure.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lfgads \ -legads -lstdc++ ++ for file in `ls *.make` ++ make -f CSys.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include CSys.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/CSys.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/CSys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/CSys.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f edge2WB.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include edge2WB.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/edge2WB.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/edge2WB /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/edge2WB.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f edges.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include edges.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/edges.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/edges /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/edges.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f effective.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include effective.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/effective.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/effective /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/effective.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egads2cart.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egads2cart.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egads2cart.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/egads2cart /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egads2cart.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egads2ply.make g++-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. egads2ply.cpp -std=c++11 \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egads2ply.o g++-11 -g -fsanitize=address -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=7.7 -I. tinyply.cpp -std=c++11 -w \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/tinyply.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/egads2ply /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egads2ply.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/tinyply.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f egadsGeom_dot.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egadsGeom_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsGeom_dot.o gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egadsTools_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/egadsGeom_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsGeom_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egadsHLevel_dot.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egadsHLevel_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsHLevel_dot.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/egadsHLevel_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsHLevel_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egadsSpline_dot.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egadsSpline_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSpline_dot.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/egadsSpline_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsSpline_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f egadsTopo_dot.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egadsTopo_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTopo_dot.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/egadsTopo_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTopo_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/egadsTools_dot.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f exportLite.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I../util/uvmap \ ../src/egadsExport.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/exportLite.o -DSTANDALONE g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/exportLite /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/exportLite.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f extrot.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include extrot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/extrot.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/extrot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/extrot.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fillet.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include fillet.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fillet.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/fillet /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fillet.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fit.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include fit.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fit.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/fit /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fit.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fitTri.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include fitTri.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fitTri.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/fitTri /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fitTri.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f fullAttr.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include fullAttr.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fullAttr.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/fullAttr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fullAttr.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f fuseSheets.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include fuseSheets.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fuseSheets.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/fuseSheets /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/fuseSheets.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f GBO.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include GBO.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/GBO.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/GBO /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/GBO.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f globalTess.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include globalTess.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/globalTess.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/globalTess /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/globalTess.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f hollowFace.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include hollowFace.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/hollowFace.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/hollowFace /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/hollowFace.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f hollow.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include hollow.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/hollow.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/hollow /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/hollow.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f intersect.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include intersect.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/intersect.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/intersect /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/intersect.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f makeCone.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include makeCone.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/makeCone.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/makeCone /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/makeCone.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f makeFace3D.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include makeFace3D.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/makeFace3D.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/makeFace3D /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/makeFace3D.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f makeLoop.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include makeLoop.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/makeLoop.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/makeLoop /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/makeLoop.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f mapTess.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include mapTess.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/mapTess.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/mapTess /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/mapTess.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f mofb.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include mofb.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/mofb.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/mofb /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/mofb.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f mssb.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include mssb.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/mssb.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/mssb /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/mssb.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f multiContext.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include multiContext.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/multiContext.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/multiContext /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/multiContext.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib \ -legads -lrt -lm ++ for file in `ls *.make` ++ make -f offset.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include offset.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/offset.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/offset /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/offset.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f rebuild.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include rebuild.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/rebuild.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/rebuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/rebuild.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f refObj.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include refObj.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/refObj.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/refObj /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/refObj.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f replace.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include replace.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/replace.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/replace /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/replace.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f revolve.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include revolve.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/revolve.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/revolve /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/revolve.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f ruled.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include ruled.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/ruled.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/ruled /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/ruled.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f saveTess.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include saveTess.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/saveTess.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/saveTess /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/saveTess.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f SBO.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include SBO.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SBO.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/SBO /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/SBO.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f scribe.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include scribe.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/scribe.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/scribe /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/scribe.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f sew.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include sew.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sew.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/sew /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sew.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f simplePer.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include simplePer.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/simplePer.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/simplePer /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/simplePer.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f smallEdges.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include smallEdges.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/smallEdges.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/smallEdges /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/smallEdges.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f step.make gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include step.f -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/step.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/step /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/step.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ ++ for file in `ls *.make` ++ make -f sweep.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include sweep.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sweep.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/sweep /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sweep.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ for file in `ls *.make` ++ make -f test.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include testc.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/testc.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/testc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/testc.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include testf.f -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/testf.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/testf /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/testf.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include parsec.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/parsec.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/parsec /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/parsec.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include parsef.f -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/parsef.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/parsef /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/parsef.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ ++ for file in `ls *.make` ++ make -f tolerance.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include tolerance.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/tolerance.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/tolerance /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/tolerance.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads \ -lrt -lm ++ for file in `ls *.make` ++ make -f union.make gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include union.f -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/union.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/union /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/union.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lfgads -legads \ -lstdc++ ++ for file in `ls *.make` ++ make -f vAttr.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vAttr.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vAttr.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vAttr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vAttr.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vCurvature.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vCurvature.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vCurvature.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vCurvature /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vCurvature.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vEffect.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vEffect.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vEffect.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vEffect /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vEffect.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vEto.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vEto.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vEto.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vEto /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vEto.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -lrt ++ for file in `ls *.make` ++ make -f vFrame.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vFrame.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vFrame.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vFrame /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vFrame.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -lrt ++ for file in `ls *.make` ++ make -f vGeom.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vGeom.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vGeom.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vGeom /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vGeom.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legads \ -lrt ++ for file in `ls *.make` ++ make -f vQuad.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vQuad.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vQuad.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vQuad /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vQuad.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver \ -legads -lrt ++ for file in `ls *.make` ++ make -f vTessInp.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vTessInp.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vTessInp.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vTessInp /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vTessInp.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f vTess.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include vTess.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vTess.o gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include ../util/retessFaces.c \ -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/retessFaces.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vTesstatic /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vTess.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/retessFaces.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legadstatic -L/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/./lib -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lTKBool -lTKernel -lTKFeat -lTKBO -lTKGeomAlgo -lTKMath -lTKOffset -lTKPrim -lTKTopAlgo -lTKBRep -lTKG2d -lTKG3d -lTKGeomBase -lTKShHealing -lTKSTEP -lTKSTEP209 -lTKSTEPBase -lTKSTEPAttr -lTKXSBase -lTKIGES -lTKFillet -pthread -lm \ -lpthread -lz -lrt -lm g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/vTess /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/vTess.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/retessFaces.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -lwsserver -legads -lrt ++ for file in `ls *.make` ++ make -f xform.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include xform.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/xform.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/test/xform /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/xform.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/Tutorial ++ make -f tire.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include tire.c g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o tire tire.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ make -f egads2tri.make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include egads2tri.c g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o egads2tri egads2tri.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lrt -lm ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/EGADS_dot/src ++ make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. circle1_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/circle1_dot.o gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. pingBodies.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/pingBodies.o gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o circle1_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/circle1_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. circle2_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/circle2_dot.o gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o circle2_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/circle2_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. naca_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/naca_dot.o gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o naca_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/naca_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. ruled_naca_dot.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/ruled_naca_dot.o gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o ruled_naca_dot /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/ruled_naca_dot.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/pingBodies.o \ -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm -lrt ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src ++ make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. serveCSM.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/serveCSM.o gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. OpenCSM.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/OpenCSM.o gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udp.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udp.o gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. tim.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/tim.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libocsm.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libocsm.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/libocsm.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/OpenCSM.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udp.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/tim.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lwsserver -ldl -lrt -lm g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/serveCSM /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/serveCSM.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. serveESP.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/serveESP.o g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/serveESP /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/serveESP.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. sensCSM.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sensCSM.o gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/sensCSM.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lrt -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpBezier.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBezier.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/bezier.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/bezier.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/bezier.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBezier.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpBiconvex.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBiconvex.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/biconvex.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/biconvex.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/biconvex.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBiconvex.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpBox.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBox.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/box.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/box.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/box.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBox.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpBspline.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBspline.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/bspline.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/bspline.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/bspline.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpBspline.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfCatmull.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCatmull.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/catmull.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/catmull.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/catmull.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCatmull.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfCompare.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCompare.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/compare.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/compare.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/compare.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCompare.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfCreateBEM.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCreateBEM.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/createBEM.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/createBEM.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/createBEM.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCreateBEM.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfCreatePoly.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCreatePoly.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/createPoly.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/createPoly.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/createPoly.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfCreatePoly.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpCsm.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpCsm.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/csm.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/csm.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/csm.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpCsm.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfDeform.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfDeform.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/deform.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/deform.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/deform.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfDeform.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfDroop.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfDroop.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/droop.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/droop.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/droop.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfDroop.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfDumpPmtrs.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfDumpPmtrs.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/dumpPmtrs.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/dumpPmtrs.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/dumpPmtrs.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfDumpPmtrs.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfEditAttr.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfEditAttr.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/editAttr.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/editAttr.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/editAttr.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfEditAttr.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpEllipse.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpEllipse.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ellipse.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ellipse.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ellipse.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpEllipse.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpEqn2body.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpEqn2body.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/eqn2body.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/eqn2body.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/eqn2body.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpEqn2body.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpFitcurve.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpFitcurve.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/fitcurve.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/fitcurve.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/fitcurve.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpFitcurve.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfFlend.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfFlend.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/flend.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/flend.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/flend.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfFlend.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpFreeform.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpFreeform.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/freeform.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/freeform.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/freeform.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpFreeform.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfGanged.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfGanged.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ganged.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ganged.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ganged.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfGanged.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfGuide.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfGuide.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/guide.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/guide.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/guide.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfGuide.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpHex.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpHex.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/hex.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/hex.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/hex.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpHex.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpImport.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpImport.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/import.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/import.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/import.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpImport.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpKulfan.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpKulfan.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/kulfan.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/kulfan.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/kulfan.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpKulfan.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfLinalg.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfLinalg.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/linalg.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/linalg.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/linalg.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfLinalg.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfMatchBodys.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfMatchBodys.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/matchBodys.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/matchBodys.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/matchBodys.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfMatchBodys.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfMechanism.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfMechanism.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/mechanism.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/mechanism.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/mechanism.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfMechanism.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpNaca.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpNaca.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpNaca.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfNaca6mc.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfNaca6mc.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca6mc.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca6mc.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca6mc.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfNaca6mc.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfNacelle.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfNacelle.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nacelle.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nacelle.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nacelle.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfNacelle.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpNurbbody.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpNurbbody.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nurbbody.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nurbbody.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nurbbody.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpNurbbody.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfNuscale.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfNuscale.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nuscale.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nuscale.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/nuscale.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfNuscale.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfOffset.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfOffset.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/offset.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/offset.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/offset.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfOffset.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpParabaloid.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpParabaloid.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/parabaloid.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/parabaloid.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/parabaloid.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpParabaloid.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm g++-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpParsec.cpp -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpParsec.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/parsec.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/parsec.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/parsec.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpParsec.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpPod.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpPod.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/pod.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/pod.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/pod.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpPod.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpPoly.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpPoly.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/poly.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/poly.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/poly.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpPoly.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfPrintBbox.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfPrintBbox.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printBbox.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printBbox.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printBbox.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfPrintBbox.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfPrintBrep.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfPrintBrep.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printBrep.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printBrep.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printBrep.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfPrintBrep.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfPrintEgo.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfPrintEgo.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printEgo.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printEgo.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/printEgo.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfPrintEgo.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpProp.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpProp.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/prop.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/prop.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/prop.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpProp.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpRadwaf.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpRadwaf.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/radwaf.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/radwaf.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/radwaf.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpRadwaf.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpSample.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpSample.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/sample.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/sample.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/sample.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpSample.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpSew.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpSew.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/sew.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/sew.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/sew.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpSew.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfShadow.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfShadow.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/shadow.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/shadow.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/shadow.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfShadow.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfSlices.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfSlices.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/slices.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/slices.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/slices.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfSlices.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpStag.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpStag.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/stag.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/stag.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/stag.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpStag.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfStiffener.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfStiffener.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/stiffener.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/stiffener.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/stiffener.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfStiffener.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpSupell.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpSupell.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/supell.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/supell.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/supell.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpSupell.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udfTester1.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfTester1.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/tester1.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/tester1.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/tester1.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udfTester1.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpTester2.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpTester2.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/tester2.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/tester2.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/tester2.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpTester2.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpVsp3.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpVsp3.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/vsp3.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/vsp3.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/vsp3.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpVsp3.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpWaffle.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpWaffle.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/waffle.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/waffle.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/waffle.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpWaffle.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpWarp.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpWarp.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/warp.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/warp.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/warp.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpWarp.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. eggPDT2.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/eggPDT2.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/PDT2.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/PDT2.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/PDT2.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/eggPDT2.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. udpNaca456.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpNaca456.o gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -c -O -fPIC -frecursive -fcray-pointer naca456.f90 -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/naca456.o -J /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca456.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca456.so gfortran-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/naca456.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/udpNaca456.o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/naca456.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -legads -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. timEreped.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timEreped.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ereped.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ereped.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/ereped.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timEreped.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. timMitten.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timMitten.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/mitten.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/mitten.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/mitten.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timMitten.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. timPlotter.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timPlotter.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/plotter.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/plotter.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/plotter.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timPlotter.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. timPlugs.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timPlugs.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/plugs.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/plugs.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/plugs.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timPlugs.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lrt gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. timSlugs.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timSlugs.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/slugs.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/slugs.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/slugs.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timSlugs.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lm gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include -I. timVspSetup.c -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timVspSetup.o touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/vspSetup.so rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/vspSetup.so g++-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib/vspSetup.so /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/obj/timVspSetup.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -locsm -lwsserver -legads -ldl -lm touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/OpenCSM.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/OpenCSM.h cp -p OpenCSM.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/OpenCSM.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/common.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/common.h cp -p common.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/common.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udp.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udp.h cp -p udp.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udp.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/esp.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/esp.h cp -p esp.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/esp.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/tim.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/tim.h cp -p tim.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/tim.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egg.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egg.h cp -p egg.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/egg.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udpUtilities.h rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udpUtilities.h cp -p udpUtilities.h /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udpUtilities.h touch /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udpUtilities.c rm /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udpUtilities.c cp -p udpUtilities.c /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include/udpUtilities.c ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/docs/UDP_UDF/data ++ make gcc-11 -g -fsanitize=address -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=7.7 -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include udpTire.c -o tire.o gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -o tire tire.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm -lrt gcc-11 -g -fsanitize=address -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=7.7 -DUDP -I/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/include udpTire.c touch tire.so rm tire.so gcc-11 -g -fsanitize=address -fno-omit-frame-pointer -fuse-ld=gold -shared -Wl,-no-undefined -o tire.so udpTire.o -L/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/lib -legads -lm -lrt ++ [[ true == '' ]] ++ ln -f -s /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/udc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64 +++ find /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/data/training/ -name Makefile + [[ reynolds == \m\a\c\y\s ]] + [[ reynolds == \v\i\g\g\e\n ]] + [[ reynolds == *\r\e\y\n\o\l\d\s* ]] + export LD_PRELOAD=/usr/lib/x86_64-linux-gnu/libasan.so.6 + LD_PRELOAD=/usr/lib/x86_64-linux-gnu/libasan.so.6 + [[ sensCSM/tess == *\v\s\p\3* ]] + source /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/JenkinsESP/ESP_Sanitize.sh ++ '[' -z '' ']' ++ OUTLEVEL=0 ++ mkdir -p /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/test ++ cd /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/test ++ [[ sensCSM/tess =~ [0-9]+.[0-9]+ ]] ++ export ESPTEST=sensCSM/tess ++ ESPTEST=sensCSM/tess ++ [[ sensCSM/tess == \C\A\P\S* ]] ++ [[ sensCSM/tess == \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=-tess ++ SENS=-tess ++ source /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/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 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../../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 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../../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 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../../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_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(x3) check complete with 0 total errors (errmax= 1.5606e-16) 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 tessellation sensitivity wrt "x4" ********************************************************* Generating perturbed configuration with delta-x4[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x5" ********************************************************* Generating perturbed configuration with delta-x5[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(x5) check complete with 0 total errors (errmax= 1.5490e-16) 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 tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y3" ********************************************************* Generating perturbed configuration with delta-y3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y4" ********************************************************* Generating perturbed configuration with delta-y4[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y5" ********************************************************* Generating perturbed configuration with delta-y5[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z3" ********************************************************* Generating perturbed configuration with delta-z3[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) 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) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.405 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5607e-16) with 0 suppressions real 0m3.539s user 0m3.494s sys 0m0.481s ++ set +x -------------------------------------------------------------------------------------------------- ( 2 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.4037e-17) d(Edge)/d(x1) check complete with 0 total errors (errmax= 2.4037e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.5775e-16) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.2980e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(x3) check complete with 0 total errors (errmax= 1.5250e-16) d(Edge)/d(x3) check complete with 0 total errors (errmax= 1.4605e-16) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(y1) check complete with 0 total errors (errmax= 7.6217e-17) d(Edge)/d(y1) check complete with 0 total errors (errmax= 4.7130e-17) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.5736e-17) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.5736e-17) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y3" ********************************************************* Generating perturbed configuration with delta-y3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(y3) check complete with 0 total errors (errmax= 7.9325e-17) d(Edge)/d(y3) check complete with 0 total errors (errmax= 4.7130e-17) d(Node)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "depth" ********************************************************* Generating perturbed configuration with delta-depth[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(depth) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(depth) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(depth) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.083 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5776e-16) with 0 suppressions real 0m0.412s user 0m0.367s sys 0m0.122s ++ set +x -------------------------------------------------------------------------------------------------- ( 3 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg1" ********************************************************* Generating perturbed configuration with delta-xbeg1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xbeg1) check complete with 0 total errors (errmax= 6.3467e-18) d(Edge)/d(xbeg1) check complete with 0 total errors (errmax= 6.8913e-13) d(Node)/d(xbeg1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybeg1" ********************************************************* Generating perturbed configuration with delta-ybeg1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(ybeg1) check complete with 0 total errors (errmax= 8.4640e-09) d(Edge)/d(ybeg1) check complete with 0 total errors (errmax= 5.5169e-13) d(Node)/d(ybeg1) check complete with 0 total errors (errmax= 3.3307e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg1" ********************************************************* Generating perturbed configuration with delta-zbeg1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(zbeg1) check complete with 0 total errors (errmax= 3.4585e-07) d(Edge)/d(zbeg1) check complete with 0 total errors (errmax= 9.6826e-07) d(Node)/d(zbeg1) check complete with 0 total errors (errmax= 1.3002e-06) ********************************************************* Starting tessellation sensitivity wrt "xend1" ********************************************************* Generating perturbed configuration with delta-xend1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xend1) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "rad1" ********************************************************* Generating perturbed configuration with delta-rad1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(rad1) check complete with 0 total errors (errmax= 3.2336e-08) d(Edge)/d(rad1) check complete with 0 total errors (errmax= 1.0266e-07) d(Node)/d(rad1) check complete with 0 total errors (errmax= 2.0733e-07) ********************************************************* Starting tessellation sensitivity wrt "xbeg2" ********************************************************* Generating perturbed configuration with delta-xbeg2[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xbeg2) check complete with 0 total errors (errmax= 3.2483e-09) d(Edge)/d(xbeg2) check complete with 0 total errors (errmax= 5.2873e-13) d(Node)/d(xbeg2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybeg2" ********************************************************* Generating perturbed configuration with delta-ybeg2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(ybeg2) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ybeg2) check complete with 0 total errors (errmax= 6.1725e-13) d(Node)/d(ybeg2) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg2" ********************************************************* Generating perturbed configuration with delta-zbeg2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(zbeg2) check complete with 0 total errors (errmax= 3.0696e-07) d(Edge)/d(zbeg2) check complete with 0 total errors (errmax= 9.6963e-07) d(Node)/d(zbeg2) check complete with 0 total errors (errmax= 1.3002e-06) ********************************************************* Starting tessellation sensitivity wrt "yend2" ********************************************************* Generating perturbed configuration with delta-yend2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(yend2) check complete with 0 total errors (errmax= 7.5065e-17) d(Edge)/d(yend2) check complete with 0 total errors (errmax= 7.2681e-17) d(Node)/d(yend2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad2" ********************************************************* Generating perturbed configuration with delta-rad2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(rad2) check complete with 0 total errors (errmax= 2.0911e-07) d(Edge)/d(rad2) check complete with 0 total errors (errmax= 6.6178e-07) d(Node)/d(rad2) check complete with 0 total errors (errmax= 1.3002e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.093 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3002e-06) with 0 suppressions real 0m2.897s user 0m4.358s sys 0m2.400s ++ set +x -------------------------------------------------------------------------------------------------- ( 4 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xbase) check complete with 0 total errors (errmax= 9.8610e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.2893e-15) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.8310e-15) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ybase) check complete with 0 total errors (errmax= 6.6596e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.8000e-15) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.9860e-15) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.1034e-15) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0752e-15) d(Node)/d(zbase) check complete with 0 total errors (errmax= 1.0359e-15) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.0441e-15) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 9.8763e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 1.0087e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.0139e-16) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2448e-15) d(Node)/d(ysize) check complete with 0 total errors (errmax= 1.8310e-15) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(zsize) check complete with 0 total errors (errmax= 7.5262e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.0291e-15) d(Node)/d(zsize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(dx) check complete with 0 total errors (errmax= 5.8255e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 9.1372e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 9.1551e-16) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.1086e-15) d(Edge)/d(dy) check complete with 0 total errors (errmax= 1.2448e-15) d(Node)/d(dy) check complete with 0 total errors (errmax= 1.8310e-15) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(dz) check complete with 0 total errors (errmax= 1.1034e-15) d(Edge)/d(dz) check complete with 0 total errors (errmax= 1.0752e-15) d(Node)/d(dz) check complete with 0 total errors (errmax= 1.0359e-15) ********************************************************* Starting tessellation sensitivity wrt "rotx" ********************************************************* Generating perturbed configuration with delta-rotx[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(rotx) check complete with 0 total errors (errmax= 8.2237e-07) d(Edge)/d(rotx) check complete with 0 total errors (errmax= 9.1955e-07) d(Node)/d(rotx) check complete with 0 total errors (errmax= 9.1955e-07) ********************************************************* Starting tessellation sensitivity wrt "roty" ********************************************************* Generating perturbed configuration with delta-roty[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(roty) check complete with 0 total errors (errmax= 2.0562e-07) d(Edge)/d(roty) check complete with 0 total errors (errmax= 2.0897e-07) d(Node)/d(roty) check complete with 0 total errors (errmax= 2.1823e-07) ********************************************************* Starting tessellation sensitivity wrt "rotz" ********************************************************* Generating perturbed configuration with delta-rotz[1,1]= 0.06000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(rotz) check complete with 0 total errors (errmax= 3.0359e-06) d(Edge)/d(rotz) check complete with 0 total errors (errmax= 3.8636e-06) d(Node)/d(rotz) check complete with 0 total errors (errmax= 4.8187e-06) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.1258e-15) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.2367e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 1.0878e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.019 sec Sensitivity checks complete with 0 total errors (max tess err= 4.8187e-06) with 0 suppressions real 0m0.639s user 0m0.433s sys 0m0.228s ++ set +x -------------------------------------------------------------------------------------------------- ( 5 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.9204e-16) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 1.9204e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(ysize) check complete with 0 total errors (errmax= 9.4585e-17) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 9.4585e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.5325e-17) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.5325e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(scale) check complete with 0 total errors (errmax= 2.1407e-16) d(Edge)/d(scale) check complete with 0 total errors (errmax= 1.9204e-16) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max tess err= 2.1408e-16) with 0 suppressions real 0m0.246s user 0m0.203s sys 0m0.098s ++ set +x -------------------------------------------------------------------------------------------------- ( 6 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0e.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.3703e-16) d(Edge)/d(camber) check complete with 0 total errors (errmax= 2.7990e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 1.3987e-08) ********************************************************* Starting tessellation sensitivity wrt "thick" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.3789e-16) d(Edge)/d(thick) check complete with 0 total errors (errmax= 2.4332e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2248e-16) ********************************************************* Starting tessellation sensitivity wrt "xle" ********************************************************* Generating perturbed configuration with delta-xle[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xle) check complete with 0 total errors (errmax= 1.7314e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.8783e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "yle" ********************************************************* Generating perturbed configuration with delta-yle[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.8492e-19) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.0636e-17) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle" ********************************************************* Generating perturbed configuration with delta-zle[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.3349e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "chord" ********************************************************* Generating perturbed configuration with delta-chord[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.2961e-16) d(Edge)/d(chord) check complete with 0 total errors (errmax= 2.0892e-16) d(Node)/d(chord) check complete with 0 total errors (errmax= 4.4604e-16) ********************************************************* Starting tessellation sensitivity wrt "alpha" ********************************************************* Generating perturbed configuration with delta-alpha[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(alpha) check complete with 0 total errors (errmax= 3.5393e-09) d(Edge)/d(alpha) check complete with 0 total errors (errmax= 4.3069e-09) d(Node)/d(alpha) check complete with 0 total errors (errmax= 7.6167e-09) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.006 sec Sensitivity checks complete with 0 total errors (max tess err= 2.7990e-07) with 0 suppressions real 0m0.518s user 0m0.424s sys 0m0.107s ++ set +x -------------------------------------------------------------------------------------------------- ( 7 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0f.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4991e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.4513e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 6.9935e-09) ********************************************************* Starting tessellation sensitivity wrt "thick" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.3916e-08) d(Edge)/d(thick) check complete with 0 total errors (errmax= 2.2367e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.5088e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.8102e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(dy) check complete with 0 total errors (errmax= 4.4532e-16) d(Edge)/d(dy) check complete with 0 total errors (errmax= 5.8344e-16) d(Node)/d(dy) check complete with 0 total errors (errmax= 4.4841e-16) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(dz) check complete with 0 total errors (errmax= 4.4532e-16) d(Edge)/d(dz) check complete with 0 total errors (errmax= 6.0953e-16) d(Node)/d(dz) check complete with 0 total errors (errmax= 4.4841e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.058 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4991e-07) with 0 suppressions real 0m0.775s user 0m0.844s sys 0m0.144s ++ set +x -------------------------------------------------------------------------------------------------- ( 8 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0g.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xle[1,1]" ********************************************************* Generating perturbed configuration with delta-xle[1,1]= 0.90429400 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.0472e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.5506e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[2,1]" ********************************************************* Generating perturbed configuration with delta-xle[2,1]= 1.22582000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.4598e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 3.5689e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[3,1]" ********************************************************* Generating perturbed configuration with delta-xle[3,1]= 1.51650400 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.4683e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 3.3164e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[4,1]" ********************************************************* Generating perturbed configuration with delta-xle[4,1]= 1.78073700 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.2753e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.3288e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yle[1,1]" ********************************************************* Generating perturbed configuration with delta-yle[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.1737e-17) d(Edge)/d(yle) check complete with 0 total errors (errmax= 3.2221e-17) d(Node)/d(yle) check complete with 0 total errors (errmax= 6.3527e-22) ********************************************************* Starting tessellation sensitivity wrt "yle[2,1]" ********************************************************* Generating perturbed configuration with delta-yle[2,1]= 0.42799900 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 8.5097e-17) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.0630e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "yle[3,1]" ********************************************************* Generating perturbed configuration with delta-yle[3,1]= 0.80972700 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.3835e-16) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.3064e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yle[4,1]" ********************************************************* Generating perturbed configuration with delta-yle[4,1]= 1.15675300 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.6198e-16) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.4324e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[1,1]" ********************************************************* Generating perturbed configuration with delta-zle[1,1]= 0.17412600 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.2502e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 4.4370e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[2,1]" ********************************************************* Generating perturbed configuration with delta-zle[2,1]= 0.18107100 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.7649e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 2.9979e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[3,1]" ********************************************************* Generating perturbed configuration with delta-zle[3,1]= 0.20979400 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.9944e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.9252e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "zle[4,1]" ********************************************************* Generating perturbed configuration with delta-zle[4,1]= 0.26382700 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.2395e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 4.9651e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist[1,1]" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00671660 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.5605e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.7095e-09) d(Node)/d(twist) check complete with 0 total errors (errmax= 2.7631e-09) ********************************************************* Starting tessellation sensitivity wrt "twist[2,1]" ********************************************************* Generating perturbed configuration with delta-twist[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 2.2360e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.9562e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 3.2645e-11) ********************************************************* Starting tessellation sensitivity wrt "twist[3,1]" ********************************************************* Generating perturbed configuration with delta-twist[3,1]= 0.00163500 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5162e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.1939e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.8735e-11) ********************************************************* Starting tessellation sensitivity wrt "twist[4,1]" ********************************************************* Generating perturbed configuration with delta-twist[4,1]= 0.00375000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 9.8936e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.5944e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.7253e-10) ********************************************************* Starting tessellation sensitivity wrt "chord[1,1]" ********************************************************* Generating perturbed configuration with delta-chord[1,1]= 0.53618100 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.6455e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 3.8447e-10) d(Node)/d(chord) check complete with 0 total errors (errmax= 4.4496e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[2,1]" ********************************************************* Generating perturbed configuration with delta-chord[2,1]= 0.28578200 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 5.9321e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.0091e-09) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "chord[3,1]" ********************************************************* Generating perturbed configuration with delta-chord[3,1]= 0.19234400 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 4.3223e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.5553e-09) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2377e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[4,1]" ********************************************************* Generating perturbed configuration with delta-chord[4,1]= 0.10740000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(chord) check complete with 0 total errors (errmax= 2.3440e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.0110e-09) d(Node)/d(chord) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "thick[1,1]" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.3850e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 7.3812e-09) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.2037e-35) ********************************************************* Starting tessellation sensitivity wrt "thick[2,1]" ********************************************************* Generating perturbed configuration with delta-thick[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.4424e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.6143e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[3,1]" ********************************************************* Generating perturbed configuration with delta-thick[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.3449e-07) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.8230e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "thick[4,1]" ********************************************************* Generating perturbed configuration with delta-thick[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(thick) check complete with 0 total errors (errmax= 7.8278e-08) d(Edge)/d(thick) check complete with 0 total errors (errmax= 2.5318e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "cambr[1,1]" ********************************************************* Generating perturbed configuration with delta-cambr[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 4.7150e-07) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 9.2735e-08) d(Node)/d(cambr) check complete with 0 total errors (errmax= 4.8229e-09) ********************************************************* Starting tessellation sensitivity wrt "cambr[2,1]" ********************************************************* Generating perturbed configuration with delta-cambr[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 3.5670e-07) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 4.1334e-08) d(Node)/d(cambr) check complete with 0 total errors (errmax= 1.7537e-09) ********************************************************* Starting tessellation sensitivity wrt "cambr[3,1]" ********************************************************* Generating perturbed configuration with delta-cambr[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 5.6418e-08) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 2.5250e-08) d(Node)/d(cambr) check complete with 0 total errors (errmax= 1.0793e-09) ********************************************************* Starting tessellation sensitivity wrt "cambr[4,1]" ********************************************************* Generating perturbed configuration with delta-cambr[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(cambr) check complete with 0 total errors (errmax= 5.4885e-08) d(Edge)/d(cambr) check complete with 0 total errors (errmax= 1.5406e-08) d(Node)/d(cambr) check complete with 0 total errors (errmax= 5.9517e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 32.679 sec Sensitivity checks complete with 0 total errors (max tess err= 2.4424e-06) with 0 suppressions real 0m54.220s user 0m52.986s sys 0m1.634s ++ set +x -------------------------------------------------------------------------------------------------- ( 9 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0h.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rx" ********************************************************* Generating perturbed configuration with delta-rx[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rx) check complete with 0 total errors (errmax= 5.0562e-21) d(Edge)/d(rx) check complete with 0 total errors (errmax= 1.1053e-16) d(Node)/d(rx) check complete with 0 total errors (errmax= 4.9304e-32) Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(rx) check complete with 0 total errors (errmax= 3.3240e-20) d(Edge)/d(rx) check complete with 0 total errors (errmax= 1.1794e-16) d(Node)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ry" ********************************************************* Generating perturbed configuration with delta-ry[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.8789e-16) d(Node)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(ry) check complete with 0 total errors (errmax= 2.7347e-20) d(Edge)/d(ry) check complete with 0 total errors (errmax= 2.1080e-16) d(Node)/d(ry) check complete with 0 total errors (errmax= 9.8608e-32) Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "rz" ********************************************************* Generating perturbed configuration with delta-rz[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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= 3.0941e-16) d(Node)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 2.7211e-16) d(Node)/d(rz) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.007 sec Sensitivity checks complete with 0 total errors (max tess err= 3.0942e-16) with 0 suppressions real 0m0.849s user 0m0.701s sys 0m0.115s ++ set +x -------------------------------------------------------------------------------------------------- ( 10 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0i.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rx" ********************************************************* Generating perturbed configuration with delta-rx[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(rx) check complete with 0 total errors (errmax= 1.0910e-16) d(Edge)/d(rx) check complete with 0 total errors (errmax= 1.1361e-16) d(Node)/d(rx) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "ry" ********************************************************* Generating perturbed configuration with delta-ry[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(ry) check complete with 0 total errors (errmax= 1.9470e-16) d(Edge)/d(ry) check complete with 0 total errors (errmax= 1.8505e-16) d(Node)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9471e-16) with 0 suppressions real 0m0.466s user 0m0.491s sys 0m0.107s ++ set +x -------------------------------------------------------------------------------------------------- ( 11 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0j.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xle[1,1]" ********************************************************* Generating perturbed configuration with delta-xle[1,1]= 0.90429400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 1.5195e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.4240e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[2,1]" ********************************************************* Generating perturbed configuration with delta-xle[2,1]= 1.22582000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 1.9797e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.5121e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[3,1]" ********************************************************* Generating perturbed configuration with delta-xle[3,1]= 1.51650400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.3285e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.5438e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[4,1]" ********************************************************* Generating perturbed configuration with delta-xle[4,1]= 1.78073700 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.2727e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 2.5640e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yle[1,1]" ********************************************************* Generating perturbed configuration with delta-yle[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 3.0080e-17) d(Edge)/d(yle) check complete with 0 total errors (errmax= 4.2737e-17) d(Node)/d(yle) check complete with 0 total errors (errmax= 6.3527e-22) ********************************************************* Starting tessellation sensitivity wrt "yle[2,1]" ********************************************************* Generating perturbed configuration with delta-yle[2,1]= 0.42799900 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 9.2383e-17) d(Edge)/d(yle) check complete with 0 total errors (errmax= 8.5548e-17) d(Node)/d(yle) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "yle[3,1]" ********************************************************* Generating perturbed configuration with delta-yle[3,1]= 0.80972700 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.2869e-16) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.2257e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yle[4,1]" ********************************************************* Generating perturbed configuration with delta-yle[4,1]= 1.15675300 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.4435e-16) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.8130e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[1,1]" ********************************************************* Generating perturbed configuration with delta-zle[1,1]= 0.17412600 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.0463e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.5420e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[2,1]" ********************************************************* Generating perturbed configuration with delta-zle[2,1]= 0.18107100 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 2.8903e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.2841e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[3,1]" ********************************************************* Generating perturbed configuration with delta-zle[3,1]= 0.20979400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 3.0456e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.5505e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "zle[4,1]" ********************************************************* Generating perturbed configuration with delta-zle[4,1]= 0.26382700 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 2.9539e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 3.9252e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist[1,1]" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00671660 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.0338e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.9465e-09) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.9277e-09) ********************************************************* Starting tessellation sensitivity wrt "twist[2,1]" ********************************************************* Generating perturbed configuration with delta-twist[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.1652e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.3721e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 2.2240e-11) ********************************************************* Starting tessellation sensitivity wrt "twist[3,1]" ********************************************************* Generating perturbed configuration with delta-twist[3,1]= 0.00163500 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.7546e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.5273e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 3.9875e-11) ********************************************************* Starting tessellation sensitivity wrt "twist[4,1]" ********************************************************* Generating perturbed configuration with delta-twist[4,1]= 0.00375000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.6553e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.2123e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.1707e-10) ********************************************************* Starting tessellation sensitivity wrt "chord[1,1]" ********************************************************* Generating perturbed configuration with delta-chord[1,1]= 0.53618100 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.2263e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 2.0711e-08) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "chord[2,1]" ********************************************************* Generating perturbed configuration with delta-chord[2,1]= 0.28578200 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 4.2757e-09) d(Edge)/d(chord) check complete with 0 total errors (errmax= 7.3230e-09) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[3,1]" ********************************************************* Generating perturbed configuration with delta-chord[3,1]= 0.19234400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 2.3617e-09) d(Edge)/d(chord) check complete with 0 total errors (errmax= 3.9875e-09) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2377e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[4,1]" ********************************************************* Generating perturbed configuration with delta-chord[4,1]= 0.10740000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 3.4818e-10) d(Edge)/d(chord) check complete with 0 total errors (errmax= 7.0187e-10) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[1,1]" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 7.9412e-08) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.3415e-07) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.1444e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[2,1]" ********************************************************* Generating perturbed configuration with delta-thick[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 4.0549e-08) d(Edge)/d(thick) check complete with 0 total errors (errmax= 6.9522e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[3,1]" ********************************************************* Generating perturbed configuration with delta-thick[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.4427e-08) d(Edge)/d(thick) check complete with 0 total errors (errmax= 4.1327e-08) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "thick[4,1]" ********************************************************* Generating perturbed configuration with delta-thick[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 3.6263e-09) d(Edge)/d(thick) check complete with 0 total errors (errmax= 7.3455e-09) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2204e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 5.695 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3415e-07) with 0 suppressions real 0m12.143s user 0m10.656s sys 0m1.307s ++ set +x -------------------------------------------------------------------------------------------------- ( 12 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0k.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x1) check complete with 0 total errors (errmax= 7.1341e-16) d(Edge)/d(x1) check complete with 0 total errors (errmax= 5.3373e-16) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 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) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 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 tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x2) check complete with 0 total errors (errmax= 6.5131e-16) d(Edge)/d(x2) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x3) check complete with 0 total errors (errmax= 3.9059e-16) d(Edge)/d(x3) check complete with 0 total errors (errmax= 3.5569e-16) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x4" ********************************************************* Generating perturbed configuration with delta-x4[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x4) check complete with 0 total errors (errmax= 2.0720e-16) d(Edge)/d(x4) check complete with 0 total errors (errmax= 1.3847e-16) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x5" ********************************************************* Generating perturbed configuration with delta-x5[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x5) check complete with 0 total errors (errmax= 1.8161e-16) d(Edge)/d(x5) check complete with 0 total errors (errmax= 1.4803e-16) d(Node)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x6" ********************************************************* Generating perturbed configuration with delta-x6[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x6) check complete with 0 total errors (errmax= 1.6835e-16) d(Edge)/d(x6) check complete with 0 total errors (errmax= 1.5701e-16) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x7" ********************************************************* Generating perturbed configuration with delta-x7[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x7) check complete with 0 total errors (errmax= 2.4593e-16) d(Edge)/d(x7) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "x8" ********************************************************* Generating perturbed configuration with delta-x8[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x8) check complete with 0 total errors (errmax= 3.7636e-16) d(Edge)/d(x8) check complete with 0 total errors (errmax= 3.3411e-16) d(Node)/d(x8) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x9" ********************************************************* Generating perturbed configuration with delta-x9[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x9) check complete with 0 total errors (errmax= 6.2275e-16) d(Edge)/d(x9) check complete with 0 total errors (errmax= 4.8800e-16) d(Node)/d(x9) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x10" ********************************************************* Generating perturbed configuration with delta-x10[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(x10) check complete with 0 total errors (errmax= 7.0642e-16) d(Edge)/d(x10) check complete with 0 total errors (errmax= 3.9165e-16) d(Node)/d(x10) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y1) check complete with 0 total errors (errmax= 4.1440e-17) d(Edge)/d(y1) check complete with 0 total errors (errmax= 7.9089e-20) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 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) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 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 tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y2) check complete with 0 total errors (errmax= 9.4449e-10) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.5679e-09) d(Node)/d(y2) check complete with 0 total errors (errmax= 4.9304e-32) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y3" ********************************************************* Generating perturbed configuration with delta-y3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y3) check complete with 0 total errors (errmax= 9.4449e-10) d(Edge)/d(y3) check complete with 0 total errors (errmax= 1.5679e-09) d(Node)/d(y3) check complete with 0 total errors (errmax= 4.9304e-32) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y4" ********************************************************* Generating perturbed configuration with delta-y4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y4) check complete with 0 total errors (errmax= 6.7105e-17) d(Edge)/d(y4) check complete with 0 total errors (errmax= 7.3401e-20) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y5" ********************************************************* Generating perturbed configuration with delta-y5[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y5) check complete with 0 total errors (errmax= 2.1481e-09) d(Edge)/d(y5) check complete with 0 total errors (errmax= 2.9493e-09) d(Node)/d(y5) check complete with 0 total errors (errmax= 9.8608e-32) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y6" ********************************************************* Generating perturbed configuration with delta-y6[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y6) check complete with 0 total errors (errmax= 2.1481e-09) d(Edge)/d(y6) check complete with 0 total errors (errmax= 2.9493e-09) d(Node)/d(y6) check complete with 0 total errors (errmax= 9.8608e-32) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y7" ********************************************************* Generating perturbed configuration with delta-y7[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y7) check complete with 0 total errors (errmax= 8.7323e-17) d(Edge)/d(y7) check complete with 0 total errors (errmax= 7.4505e-20) d(Node)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y8" ********************************************************* Generating perturbed configuration with delta-y8[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y8) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y8) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y8) check complete with 0 total errors (errmax= 9.4449e-10) d(Edge)/d(y8) check complete with 0 total errors (errmax= 1.5679e-09) d(Node)/d(y8) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "y9" ********************************************************* Generating perturbed configuration with delta-y9[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y9) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y9) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y9) check complete with 0 total errors (errmax= 9.4449e-10) d(Edge)/d(y9) check complete with 0 total errors (errmax= 1.5679e-09) d(Node)/d(y9) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "y10" ********************************************************* Generating perturbed configuration with delta-y10[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(y10) check complete with 0 total errors (errmax= 5.2720e-17) d(Edge)/d(y10) check complete with 0 total errors (errmax= 5.8292e-20) d(Node)/d(y10) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z1) check complete with 0 total errors (errmax= 7.6546e-17) d(Edge)/d(z1) check complete with 0 total errors (errmax= 8.6586e-17) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 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) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z2) check complete with 0 total errors (errmax= 1.8848e-07) d(Edge)/d(z2) check complete with 0 total errors (errmax= 3.1288e-07) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z3" ********************************************************* Generating perturbed configuration with delta-z3[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z3) check complete with 0 total errors (errmax= 1.8848e-07) d(Edge)/d(z3) check complete with 0 total errors (errmax= 3.1288e-07) d(Node)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z4" ********************************************************* Generating perturbed configuration with delta-z4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z4) check complete with 0 total errors (errmax= 4.4157e-17) d(Edge)/d(z4) check complete with 0 total errors (errmax= 6.3534e-17) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z5" ********************************************************* Generating perturbed configuration with delta-z5[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z5) check complete with 0 total errors (errmax= 1.4650e-07) d(Edge)/d(z5) check complete with 0 total errors (errmax= 2.4320e-07) d(Node)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z6" ********************************************************* Generating perturbed configuration with delta-z6[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z6) check complete with 0 total errors (errmax= 1.4650e-07) d(Edge)/d(z6) check complete with 0 total errors (errmax= 2.4320e-07) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z7" ********************************************************* Generating perturbed configuration with delta-z7[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z7) check complete with 0 total errors (errmax= 5.1348e-17) d(Edge)/d(z7) check complete with 0 total errors (errmax= 7.1684e-17) d(Node)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "z8" ********************************************************* Generating perturbed configuration with delta-z8[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z8) check complete with 0 total errors (errmax= 1.8848e-07) d(Edge)/d(z8) check complete with 0 total errors (errmax= 3.1288e-07) d(Node)/d(z8) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z9" ********************************************************* Generating perturbed configuration with delta-z9[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z9) check complete with 0 total errors (errmax= 1.8848e-07) d(Edge)/d(z9) check complete with 0 total errors (errmax= 3.1288e-07) d(Node)/d(z9) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z10" ********************************************************* Generating perturbed configuration with delta-z10[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(z10) check complete with 0 total errors (errmax= 8.4617e-17) d(Edge)/d(z10) check complete with 0 total errors (errmax= 9.4617e-17) d(Node)/d(z10) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 6.203 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1288e-07) with 0 suppressions real 0m18.096s user 0m16.921s sys 0m1.026s ++ set +x -------------------------------------------------------------------------------------------------- ( 13 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0m.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.7828e-15) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 2.2418e-15) d(Node)/d(xbase) check complete with 0 total errors (errmax= 3.8266e-15) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.0431e-15) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.2056e-15) d(Node)/d(ybase) check complete with 0 total errors (errmax= 3.7221e-15) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.1758e-15) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.1922e-15) d(Node)/d(zbase) check complete with 0 total errors (errmax= 3.5596e-15) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xsize) check complete with 0 total errors (errmax= 1.9592e-15) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.1236e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5804e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.2611e-15) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2561e-15) d(Node)/d(ysize) check complete with 0 total errors (errmax= 3.6146e-15) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(zsize) check complete with 0 total errors (errmax= 1.5811e-15) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 1.6337e-15) d(Node)/d(zsize) check complete with 0 total errors (errmax= 3.6621e-15) ********************************************************* Starting tessellation sensitivity wrt "nx" ********************************************************* Generating perturbed configuration with delta-nx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(nx) check complete with 0 total errors (errmax= 2.2521e-05) d(Edge)/d(nx) check complete with 0 total errors (errmax= 3.5752e-05) d(Node)/d(nx) check complete with 0 total errors (errmax= 4.3630e-05) ********************************************************* Starting tessellation sensitivity wrt "ny" ********************************************************* Generating perturbed configuration with delta-ny[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ny) check complete with 0 total errors (errmax= 6.4361e-05) d(Edge)/d(ny) check complete with 0 total errors (errmax= 8.2055e-05) d(Node)/d(ny) check complete with 0 total errors (errmax= 8.7460e-05) ********************************************************* Starting tessellation sensitivity wrt "nz" ********************************************************* Generating perturbed configuration with delta-nz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(nz) check complete with 0 total errors (errmax= 6.9455e-05) d(Edge)/d(nz) check complete with 0 total errors (errmax= 9.6215e-05) d(Node)/d(nz) check complete with 0 total errors (errmax= 1.0635e-04) ********************************************************* Starting tessellation sensitivity wrt "dist" ********************************************************* Generating perturbed configuration with delta-dist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(dist) check complete with 0 total errors (errmax= 1.3752e-15) d(Edge)/d(dist) check complete with 0 total errors (errmax= 2.0735e-15) d(Node)/d(dist) check complete with 0 total errors (errmax= 1.8310e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(scale) check complete with 0 total errors (errmax= 1.7837e-15) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3731e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 2.6645e-15) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.7764e-15) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.7764e-15) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(dy) check complete with 0 total errors (errmax= 4.0970e-16) d(Edge)/d(dy) check complete with 0 total errors (errmax= 5.4991e-16) d(Node)/d(dy) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(dz) check complete with 0 total errors (errmax= 1.1687e-16) d(Edge)/d(dz) check complete with 0 total errors (errmax= 1.2292e-16) d(Node)/d(dz) check complete with 0 total errors (errmax= 2.2204e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.018 sec Sensitivity checks complete with 1 total errors (max tess err= 1.0635e-04) with 0 suppressions real 0m0.447s user 0m0.328s sys 0m0.144s ++ set +x -------------------------------------------------------------------------------------------------- ( 14 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0n1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.8152e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.6769e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.6780e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.4214e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 6.9935e-09) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.6383e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.059 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6780e-07) with 0 suppressions real 0m0.967s user 0m1.181s sys 0m0.118s ++ set +x -------------------------------------------------------------------------------------------------- ( 15 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0n2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "class[1,1]" ********************************************************* Generating perturbed configuration with delta-class[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "class[1,2]" ********************************************************* Generating perturbed configuration with delta-class[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,1]" ********************************************************* Generating perturbed configuration with delta-aupper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,2]" ********************************************************* Generating perturbed configuration with delta-aupper[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,3]" ********************************************************* Generating perturbed configuration with delta-aupper[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,4]" ********************************************************* Generating perturbed configuration with delta-aupper[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "alower[1,1]" ********************************************************* Generating perturbed configuration with delta-alower[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "alower[1,2]" ********************************************************* Generating perturbed configuration with delta-alower[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "alower[1,3]" ********************************************************* Generating perturbed configuration with delta-alower[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "alower[1,4]" ********************************************************* Generating perturbed configuration with delta-alower[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.3738e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.065 sec Sensitivity checks complete with 0 total errors (max tess err= 2.3739e-16) with 0 suppressions real 0m2.583s user 0m2.358s sys 0m0.433s ++ set +x -------------------------------------------------------------------------------------------------- ( 16 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.6935e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.5926e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.6620e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.3701e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 6.9935e-09) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(span) check complete with 0 total errors (errmax= 2.0599e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.4060e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.104 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6620e-07) with 0 suppressions real 0m3.213s user 0m3.220s sys 0m0.182s ++ set +x -------------------------------------------------------------------------------------------------- ( 17 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "class[1,1]" ********************************************************* Generating perturbed configuration with delta-class[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "class[1,2]" ********************************************************* Generating perturbed configuration with delta-class[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,1]" ********************************************************* Generating perturbed configuration with delta-aupper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,2]" ********************************************************* Generating perturbed configuration with delta-aupper[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,3]" ********************************************************* Generating perturbed configuration with delta-aupper[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,4]" ********************************************************* Generating perturbed configuration with delta-aupper[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,5]" ********************************************************* Generating perturbed configuration with delta-aupper[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,6]" ********************************************************* Generating perturbed configuration with delta-aupper[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,1]" ********************************************************* Generating perturbed configuration with delta-alower[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,2]" ********************************************************* Generating perturbed configuration with delta-alower[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,3]" ********************************************************* Generating perturbed configuration with delta-alower[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,4]" ********************************************************* Generating perturbed configuration with delta-alower[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,5]" ********************************************************* Generating perturbed configuration with delta-alower[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,6]" ********************************************************* Generating perturbed configuration with delta-alower[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(span) check complete with 0 total errors (errmax= 1.8949e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.2312e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 6.663 sec Sensitivity checks complete with 0 total errors (max tess err= 3.2313e-16) with 0 suppressions real 0m12.574s user 0m11.718s sys 0m0.653s ++ set +x -------------------------------------------------------------------------------------------------- ( 18 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.6935e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.5926e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.6620e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.3701e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 6.9935e-09) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(span) check complete with 0 total errors (errmax= 2.0599e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.4060e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.037 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6620e-07) with 0 suppressions real 0m2.938s user 0m3.034s sys 0m0.241s ++ set +x -------------------------------------------------------------------------------------------------- ( 19 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0o4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "class[1,1]" ********************************************************* Generating perturbed configuration with delta-class[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "class[1,2]" ********************************************************* Generating perturbed configuration with delta-class[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,1]" ********************************************************* Generating perturbed configuration with delta-aupper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,2]" ********************************************************* Generating perturbed configuration with delta-aupper[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,3]" ********************************************************* Generating perturbed configuration with delta-aupper[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,4]" ********************************************************* Generating perturbed configuration with delta-aupper[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,5]" ********************************************************* Generating perturbed configuration with delta-aupper[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "aupper[1,6]" ********************************************************* Generating perturbed configuration with delta-aupper[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,1]" ********************************************************* Generating perturbed configuration with delta-alower[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,2]" ********************************************************* Generating perturbed configuration with delta-alower[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,3]" ********************************************************* Generating perturbed configuration with delta-alower[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,4]" ********************************************************* Generating perturbed configuration with delta-alower[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,5]" ********************************************************* Generating perturbed configuration with delta-alower[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "alower[1,6]" ********************************************************* Generating perturbed configuration with delta-alower[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(span) check complete with 0 total errors (errmax= 1.8949e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 3.2312e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 7.082 sec Sensitivity checks complete with 0 total errors (max tess err= 3.2313e-16) with 0 suppressions real 0m13.447s user 0m12.262s sys 0m0.772s ++ set +x -------------------------------------------------------------------------------------------------- ( 20 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0p.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.7737e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.7737e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "chord" ********************************************************* Generating perturbed configuration with delta-chord[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(chord) check complete with 0 total errors (errmax= 9.9626e-17) d(Edge)/d(chord) check complete with 0 total errors (errmax= 1.1189e-16) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.1189e-16) ********************************************************* Starting tessellation sensitivity wrt "alpha" ********************************************************* Generating perturbed configuration with delta-alpha[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(alpha) check complete with 0 total errors (errmax= 2.1967e-09) d(Edge)/d(alpha) check complete with 0 total errors (errmax= 3.8077e-09) d(Node)/d(alpha) check complete with 0 total errors (errmax= 3.8077e-09) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9537e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.010 sec Sensitivity checks complete with 0 total errors (max tess err= 1.7737e-08) with 0 suppressions real 0m0.373s user 0m0.165s sys 0m0.121s ++ set +x -------------------------------------------------------------------------------------------------- ( 21 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0q.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(camber) check complete with 0 total errors (errmax= 7.8088e-11) d(Edge)/d(camber) check complete with 0 total errors (errmax= 7.8088e-11) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "chord" ********************************************************* Generating perturbed configuration with delta-chord[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(chord) check complete with 0 total errors (errmax= 8.4071e-15) d(Edge)/d(chord) check complete with 0 total errors (errmax= 8.4118e-15) d(Node)/d(chord) check complete with 0 total errors (errmax= 1.1189e-16) ********************************************************* Starting tessellation sensitivity wrt "alpha" ********************************************************* Generating perturbed configuration with delta-alpha[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(alpha) check complete with 0 total errors (errmax= 2.1967e-09) d(Edge)/d(alpha) check complete with 0 total errors (errmax= 3.8077e-09) d(Node)/d(alpha) check complete with 0 total errors (errmax= 3.8077e-09) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 2.0325e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.9844e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.572 sec Sensitivity checks complete with 0 total errors (max tess err= 3.8077e-09) with 0 suppressions real 0m1.525s user 0m1.079s sys 0m0.114s ++ set +x -------------------------------------------------------------------------------------------------- ( 22 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0r.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.2866e-16) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.0547e-16) d(Edge)/d(xend) check complete with 0 total errors (errmax= 9.9201e-17) d(Node)/d(xend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(rad) check complete with 0 total errors (errmax= 4.2547e-08) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.0379e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.8492e-07) ********************************************************* Starting tessellation sensitivity wrt "size1" ********************************************************* Generating perturbed configuration with delta-size1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(size1) check complete with 0 total errors (errmax= 5.6257e-08) d(Edge)/d(size1) check complete with 0 total errors (errmax= 1.8762e-07) d(Node)/d(size1) check complete with 0 total errors (errmax= 4.4610e-07) ********************************************************* Starting tessellation sensitivity wrt "angl1" ********************************************************* Generating perturbed configuration with delta-angl1[1,1]= 0.04500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(angl1) check complete with 0 total errors (errmax= 1.1111e-07) d(Edge)/d(angl1) check complete with 0 total errors (errmax= 1.7447e-07) d(Node)/d(angl1) check complete with 0 total errors (errmax= 2.1158e-07) ********************************************************* Starting tessellation sensitivity wrt "dx1" ********************************************************* Generating perturbed configuration with delta-dx1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dx1) check complete with 0 total errors (errmax= 2.0405e-11) d(Edge)/d(dx1) check complete with 0 total errors (errmax= 3.3307e-16) d(Node)/d(dx1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy1" ********************************************************* Generating perturbed configuration with delta-dy1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) d(Node)/d(dy1) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "dz1" ********************************************************* Generating perturbed configuration with delta-dz1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dz1) check complete with 0 total errors (errmax= 1.4087e-07) d(Edge)/d(dz1) check complete with 0 total errors (errmax= 5.2612e-07) d(Node)/d(dz1) check complete with 0 total errors (errmax= 8.9242e-07) ********************************************************* Starting tessellation sensitivity wrt "size2" ********************************************************* Generating perturbed configuration with delta-size2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(size2) check complete with 0 total errors (errmax= 3.6257e-08) d(Edge)/d(size2) check complete with 0 total errors (errmax= 1.6240e-07) d(Node)/d(size2) check complete with 0 total errors (errmax= 1.6240e-07) ********************************************************* Starting tessellation sensitivity wrt "angl2" ********************************************************* Generating perturbed configuration with delta-angl2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 EGADS Info: Reversal -- Edges: src = 12 dst = 12 dot = -1.000000 (EG_mapBody2) EGADS Info: Reversal -- Edges: src = 14 dst = 14 dot = -1.000000 (EG_mapBody2) Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(angl2) check complete with 0 total errors (errmax= 7.1173e-11) d(Edge)/d(angl2) check complete with 0 total errors (errmax= 9.2821e-11) d(Node)/d(angl2) check complete with 0 total errors (errmax= 8.6308e-11) ********************************************************* Starting tessellation sensitivity wrt "dx2" ********************************************************* Generating perturbed configuration with delta-dx2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dx2) check complete with 0 total errors (errmax= 1.1762e-16) d(Edge)/d(dx2) check complete with 0 total errors (errmax= 1.2589e-16) d(Node)/d(dx2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy2" ********************************************************* Generating perturbed configuration with delta-dy2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) d(Node)/d(dy2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz2" ********************************************************* Generating perturbed configuration with delta-dz2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dz2) check complete with 0 total errors (errmax= 1.6299e-07) d(Edge)/d(dz2) check complete with 0 total errors (errmax= 6.4977e-07) d(Node)/d(dz2) check complete with 0 total errors (errmax= 6.4977e-07) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.1762e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.2589e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dy) check complete with 0 total errors (errmax= 5.0358e-09) d(Edge)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dz) check complete with 0 total errors (errmax= 2.5633e-09) d(Edge)/d(dz) check complete with 0 total errors (errmax= 3.2783e-19) d(Node)/d(dz) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "sfac" ********************************************************* Generating perturbed configuration with delta-sfac[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(sfac) check complete with 0 total errors (errmax= 2.2361e-16) d(Edge)/d(sfac) check complete with 0 total errors (errmax= 2.5702e-16) d(Node)/d(sfac) check complete with 0 total errors (errmax= 2.5438e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.372 sec Sensitivity checks complete with 0 total errors (max tess err= 8.9242e-07) with 0 suppressions real 0m6.966s user 0m7.577s sys 0m0.816s ++ set +x -------------------------------------------------------------------------------------------------- ( 23 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0s.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 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= 0.0000e+00) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.006 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m0.294s user 0m0.175s sys 0m0.124s ++ set +x -------------------------------------------------------------------------------------------------- ( 24 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0t1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 9.4585e-17) d(Edge)/d(DX) check complete with 0 total errors (errmax= 9.4585e-17) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.6284e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.5325e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 3.4253e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.6638e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max tess err= 3.6285e-16) with 0 suppressions real 0m0.344s user 0m0.204s sys 0m0.097s ++ set +x -------------------------------------------------------------------------------------------------- ( 25 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0t2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.9434e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.2660e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.7229e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 6.4099e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 3.4207e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.7341e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.253 sec Sensitivity checks complete with 0 total errors (max tess err= 3.7230e-16) with 0 suppressions real 0m1.380s user 0m0.993s sys 0m0.178s ++ set +x -------------------------------------------------------------------------------------------------- ( 26 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0t3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.9434e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.2660e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 3.7229e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 6.4099e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 3.4207e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.7341e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.254 sec Sensitivity checks complete with 0 total errors (max tess err= 3.7230e-16) with 0 suppressions real 0m1.277s user 0m0.993s sys 0m0.151s ++ set +x -------------------------------------------------------------------------------------------------- ( 27 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0u.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rx" ********************************************************* Generating perturbed configuration with delta-rx[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rx) check complete with 0 total errors (errmax= 2.4845e-16) d(Edge)/d(rx) check complete with 0 total errors (errmax= 1.8707e-07) d(Node)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ry" ********************************************************* Generating perturbed configuration with delta-ry[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ry) check complete with 0 total errors (errmax= 2.4206e-16) d(Edge)/d(ry) check complete with 0 total errors (errmax= 1.8764e-07) d(Node)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.003 sec Sensitivity checks complete with 0 total errors (max tess err= 1.8764e-07) with 0 suppressions real 0m0.375s user 0m0.165s sys 0m0.134s ++ set +x -------------------------------------------------------------------------------------------------- ( 28 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0v.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rx" ********************************************************* Generating perturbed configuration with delta-rx[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(rx) check complete with 0 total errors (errmax= 1.8707e-07) d(Edge)/d(rx) check complete with 0 total errors (errmax= 1.8707e-07) d(Node)/d(rx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ry" ********************************************************* Generating perturbed configuration with delta-ry[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(ry) check complete with 0 total errors (errmax= 1.8764e-07) d(Edge)/d(ry) check complete with 0 total errors (errmax= 1.8764e-07) d(Node)/d(ry) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.7630e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.028 sec Sensitivity checks complete with 0 total errors (max tess err= 1.8764e-07) with 0 suppressions real 0m0.705s user 0m0.463s sys 0m0.115s ++ set +x -------------------------------------------------------------------------------------------------- ( 29 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design0w.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xle[1,1]" ********************************************************* Generating perturbed configuration with delta-xle[1,1]= 0.90429400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 3.4496e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 1.8201e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[2,1]" ********************************************************* Generating perturbed configuration with delta-xle[2,1]= 1.22582000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 2.3076e-16) d(Edge)/d(xle) check complete with 0 total errors (errmax= 3.2177e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[3,1]" ********************************************************* Generating perturbed configuration with delta-xle[3,1]= 1.51650400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 7.8759e-14) d(Edge)/d(xle) check complete with 0 total errors (errmax= 5.6921e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xle[4,1]" ********************************************************* Generating perturbed configuration with delta-xle[4,1]= 1.78073700 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(xle) check complete with 0 total errors (errmax= 8.0105e-14) d(Edge)/d(xle) check complete with 0 total errors (errmax= 4.8393e-16) d(Node)/d(xle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yle[1,1]" ********************************************************* Generating perturbed configuration with delta-yle[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 2.8905e-17) d(Edge)/d(yle) check complete with 0 total errors (errmax= 4.2737e-17) d(Node)/d(yle) check complete with 0 total errors (errmax= 6.3527e-22) ********************************************************* Starting tessellation sensitivity wrt "yle[2,1]" ********************************************************* Generating perturbed configuration with delta-yle[2,1]= 0.42799900 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 8.2668e-17) d(Edge)/d(yle) check complete with 0 total errors (errmax= 8.7184e-17) d(Node)/d(yle) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "yle[3,1]" ********************************************************* Generating perturbed configuration with delta-yle[3,1]= 0.80972700 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.5006e-16) d(Edge)/d(yle) check complete with 0 total errors (errmax= 1.3270e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yle[4,1]" ********************************************************* Generating perturbed configuration with delta-yle[4,1]= 1.15675300 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(yle) check complete with 0 total errors (errmax= 1.8679e-16) d(Edge)/d(yle) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(yle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[1,1]" ********************************************************* Generating perturbed configuration with delta-zle[1,1]= 0.17412600 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.6234e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[2,1]" ********************************************************* Generating perturbed configuration with delta-zle[2,1]= 0.18107100 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.2069e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 5.4106e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zle[3,1]" ********************************************************* Generating perturbed configuration with delta-zle[3,1]= 0.20979400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 5.3277e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 7.9202e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "zle[4,1]" ********************************************************* Generating perturbed configuration with delta-zle[4,1]= 0.26382700 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(zle) check complete with 0 total errors (errmax= 4.7291e-17) d(Edge)/d(zle) check complete with 0 total errors (errmax= 7.0763e-17) d(Node)/d(zle) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist[1,1]" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00671660 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.0152e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 4.8274e-09) d(Node)/d(twist) check complete with 0 total errors (errmax= 5.5262e-09) ********************************************************* Starting tessellation sensitivity wrt "twist[2,1]" ********************************************************* Generating perturbed configuration with delta-twist[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.2397e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.2747e-09) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.5290e-11) ********************************************************* Starting tessellation sensitivity wrt "twist[3,1]" ********************************************************* Generating perturbed configuration with delta-twist[3,1]= 0.00163500 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.5980e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.6280e-09) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.1747e-10) ********************************************************* Starting tessellation sensitivity wrt "twist[4,1]" ********************************************************* Generating perturbed configuration with delta-twist[4,1]= 0.00375000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.3018e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 2.0298e-09) d(Node)/d(twist) check complete with 0 total errors (errmax= 3.4505e-10) ********************************************************* Starting tessellation sensitivity wrt "chord[1,1]" ********************************************************* Generating perturbed configuration with delta-chord[1,1]= 0.53618100 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 7.8954e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 9.4273e-08) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[2,1]" ********************************************************* Generating perturbed configuration with delta-chord[2,1]= 0.28578200 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 6.3342e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 6.9975e-08) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2377e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[3,1]" ********************************************************* Generating perturbed configuration with delta-chord[3,1]= 0.19234400 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 5.2350e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 5.3878e-08) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2377e-16) ********************************************************* Starting tessellation sensitivity wrt "chord[4,1]" ********************************************************* Generating perturbed configuration with delta-chord[4,1]= 0.10740000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(chord) check complete with 0 total errors (errmax= 1.8603e-08) d(Edge)/d(chord) check complete with 0 total errors (errmax= 2.7947e-08) d(Node)/d(chord) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[1,1]" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 3.3066e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.0308e-06) d(Node)/d(thick) check complete with 0 total errors (errmax= 1.2413e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[2,1]" ********************************************************* Generating perturbed configuration with delta-thick[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 3.7346e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.8348e-06) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "thick[3,1]" ********************************************************* Generating perturbed configuration with delta-thick[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 3.3844e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 3.3386e-06) d(Node)/d(thick) check complete with 0 total errors (errmax= 2.7756e-17) ********************************************************* Starting tessellation sensitivity wrt "thick[4,1]" ********************************************************* Generating perturbed configuration with delta-thick[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.1092e-06) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.7592e-06) d(Node)/d(thick) check complete with 0 total errors (errmax= 5.5511e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 11.348 sec Sensitivity checks complete with 0 total errors (max tess err= 3.8348e-06) with 0 suppressions real 0m26.791s user 0m21.697s sys 0m1.562s ++ set +x -------------------------------------------------------------------------------------------------- ( 30 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L1" ********************************************************* Generating perturbed configuration with delta-L1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(L1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H1" ********************************************************* Generating perturbed configuration with delta-H1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(H1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(H1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(H1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D1" ********************************************************* Generating perturbed configuration with delta-D1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(D1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(D1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(D1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L2" ********************************************************* Generating perturbed configuration with delta-L2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(L2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H2" ********************************************************* Generating perturbed configuration with delta-H2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(H2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(H2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(H2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D2" ********************************************************* Generating perturbed configuration with delta-D2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(D2) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(D2) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(D2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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) ********************************************************* Starting tessellation sensitivity wrt "sfac" ********************************************************* Generating perturbed configuration with delta-sfac[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(sfac) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(sfac) check complete with 0 total errors (errmax= 1.2561e-15) d(Node)/d(sfac) check complete with 0 total errors (errmax= 1.2561e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.181 sec Sensitivity checks complete with 0 total errors (max tess err= 1.2561e-15) with 0 suppressions real 0m1.756s user 0m1.834s sys 0m0.328s ++ set +x -------------------------------------------------------------------------------------------------- ( 31 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "Length" ********************************************************* Generating perturbed configuration with delta-Length[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Length) check complete with 0 total errors (errmax= 9.8353e-10) d(Edge)/d(Length) check complete with 0 total errors (errmax= 2.1604e-15) d(Node)/d(Length) check complete with 0 total errors (errmax= 1.9860e-15) ********************************************************* Starting tessellation sensitivity wrt "Height" ********************************************************* Generating perturbed configuration with delta-Height[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Height) check complete with 0 total errors (errmax= 8.1960e-11) d(Edge)/d(Height) check complete with 0 total errors (errmax= 1.7902e-15) d(Node)/d(Height) check complete with 0 total errors (errmax= 1.7902e-15) ********************************************************* Starting tessellation sensitivity wrt "Depth" ********************************************************* Generating perturbed configuration with delta-Depth[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Depth) check complete with 0 total errors (errmax= 2.4071e-10) d(Edge)/d(Depth) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(Depth) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Rhole" ********************************************************* Generating perturbed configuration with delta-Rhole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Rhole) check complete with 0 total errors (errmax= 4.1103e-16) d(Edge)/d(Rhole) check complete with 0 total errors (errmax= 6.2804e-16) d(Node)/d(Rhole) check complete with 0 total errors (errmax= 6.2804e-16) ********************************************************* Starting tessellation sensitivity wrt "Xpole" ********************************************************* Generating perturbed configuration with delta-Xpole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Xpole) check complete with 0 total errors (errmax= 1.1802e-08) d(Edge)/d(Xpole) check complete with 0 total errors (errmax= 1.1102e-15) d(Node)/d(Xpole) check complete with 0 total errors (errmax= 1.1102e-15) ********************************************************* Starting tessellation sensitivity wrt "Ypole" ********************************************************* Generating perturbed configuration with delta-Ypole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Ypole) check complete with 0 total errors (errmax= 5.7822e-16) d(Edge)/d(Ypole) check complete with 0 total errors (errmax= 5.9993e-16) d(Node)/d(Ypole) check complete with 0 total errors (errmax= 5.5511e-16) ********************************************************* Starting tessellation sensitivity wrt "Rpole" ********************************************************* Generating perturbed configuration with delta-Rpole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Rpole) check complete with 0 total errors (errmax= 3.9270e-16) d(Edge)/d(Rpole) check complete with 0 total errors (errmax= 2.6088e-16) d(Node)/d(Rpole) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "XangDeg" ********************************************************* Generating perturbed configuration with delta-XangDeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(XangDeg) check complete with 0 total errors (errmax= 5.1416e-10) d(Edge)/d(XangDeg) check complete with 0 total errors (errmax= 5.1678e-10) d(Node)/d(XangDeg) check complete with 0 total errors (errmax= 5.7116e-10) ********************************************************* Starting tessellation sensitivity wrt "YangDeg" ********************************************************* Generating perturbed configuration with delta-YangDeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(YangDeg) check complete with 0 total errors (errmax= 9.5002e-10) d(Edge)/d(YangDeg) check complete with 0 total errors (errmax= 1.0217e-09) d(Node)/d(YangDeg) check complete with 0 total errors (errmax= 1.0217e-09) ********************************************************* Starting tessellation sensitivity wrt "ZangDeg" ********************************************************* Generating perturbed configuration with delta-ZangDeg[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(ZangDeg) check complete with 0 total errors (errmax= 8.2247e-07) d(Edge)/d(ZangDeg) check complete with 0 total errors (errmax= 8.4778e-07) d(Node)/d(ZangDeg) check complete with 0 total errors (errmax= 8.4778e-07) ********************************************************* Starting tessellation sensitivity wrt "Dx" ********************************************************* Generating perturbed configuration with delta-Dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dx) check complete with 0 total errors (errmax= 2.2129e-09) d(Edge)/d(Dx) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Dx) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Dy" ********************************************************* Generating perturbed configuration with delta-Dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dy) check complete with 0 total errors (errmax= 7.3764e-10) d(Edge)/d(Dy) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Dy) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Dz" ********************************************************* Generating perturbed configuration with delta-Dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dz) check complete with 0 total errors (errmax= 5.4159e-10) d(Edge)/d(Dz) check complete with 0 total errors (errmax= 2.3638e-16) d(Node)/d(Dz) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "Scale" ********************************************************* Generating perturbed configuration with delta-Scale[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Scale) check complete with 0 total errors (errmax= 1.1847e-09) d(Edge)/d(Scale) check complete with 0 total errors (errmax= 6.2814e-16) d(Node)/d(Scale) check complete with 0 total errors (errmax= 6.3777e-16) ********************************************************* Starting tessellation sensitivity wrt "Dist" ********************************************************* Generating perturbed configuration with delta-Dist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dist) check complete with 0 total errors (errmax= 3.9341e-09) d(Edge)/d(Dist) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Dist) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.385 sec Sensitivity checks complete with 0 total errors (max tess err= 8.4778e-07) with 0 suppressions real 0m11.305s user 0m7.935s sys 0m1.299s ++ set +x -------------------------------------------------------------------------------------------------- ( 32 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "Length" ********************************************************* Generating perturbed configuration with delta-Length[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Height" ********************************************************* Generating perturbed configuration with delta-Height[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Depth" ********************************************************* Generating perturbed configuration with delta-Depth[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "BoxFil" ********************************************************* Generating perturbed configuration with delta-BoxFil[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Wslot" ********************************************************* Generating perturbed configuration with delta-Wslot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Dslot" ********************************************************* Generating perturbed configuration with delta-Dslot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Rhole" ********************************************************* Generating perturbed configuration with delta-Rhole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Nhole" ********************************************************* Generating perturbed configuration with delta-Nhole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Fhole" ********************************************************* Generating perturbed configuration with delta-Fhole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Xpole" ********************************************************* Generating perturbed configuration with delta-Xpole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Ypole" ********************************************************* Generating perturbed configuration with delta-Ypole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Rpole" ********************************************************* Generating perturbed configuration with delta-Rpole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Fpole" ********************************************************* Generating perturbed configuration with delta-Fpole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "XangDeg" ********************************************************* Generating perturbed configuration with delta-XangDeg[1,1]= 0.05000000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "YangDeg" ********************************************************* Generating perturbed configuration with delta-YangDeg[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "ZangDeg" ********************************************************* Generating perturbed configuration with delta-ZangDeg[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Dx" ********************************************************* Generating perturbed configuration with delta-Dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Dy" ********************************************************* Generating perturbed configuration with delta-Dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Dz" ********************************************************* Generating perturbed configuration with delta-Dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "Scale" ********************************************************* Generating perturbed configuration with delta-Scale[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "array[1,1]" ********************************************************* Generating perturbed configuration with delta-array[1,1]= 0.01100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "array[1,2]" ********************************************************* Generating perturbed configuration with delta-array[1,2]= 0.01200000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "array[2,1]" ********************************************************* Generating perturbed configuration with delta-array[2,1]= 0.02100000 Computing analytic sensitivities (if possible) for ibody=18 ********************************************************* Starting tessellation sensitivity wrt "array[2,2]" ********************************************************* Generating perturbed configuration with delta-array[2,2]= 0.02200000 Computing analytic sensitivities (if possible) for ibody=18 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 51.501 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 1m36.255s user 1m31.591s sys 0m5.264s ++ set +x -------------------------------------------------------------------------------------------------- ( 33 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "Xbase" ********************************************************* Generating perturbed configuration with delta-Xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Ybase" ********************************************************* Generating perturbed configuration with delta-Ybase[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Zbase" ********************************************************* Generating perturbed configuration with delta-Zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Xvrtx" ********************************************************* Generating perturbed configuration with delta-Xvrtx[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Yvrtx" ********************************************************* Generating perturbed configuration with delta-Yvrtx[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Zvrtx" ********************************************************* Generating perturbed configuration with delta-Zvrtx[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Rcone" ********************************************************* Generating perturbed configuration with delta-Rcone[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Rsphere" ********************************************************* Generating perturbed configuration with delta-Rsphere[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Rmajor" ********************************************************* Generating perturbed configuration with delta-Rmajor[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "Rminor" ********************************************************* Generating perturbed configuration with delta-Rminor[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 13.047 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m11.927s user 0m19.333s sys 0m5.040s ++ set +x -------------------------------------------------------------------------------------------------- ( 34 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "Length" ********************************************************* Generating perturbed configuration with delta-Length[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Length) check complete with 0 total errors (errmax= 1.4346e-15) d(Edge)/d(Length) check complete with 0 total errors (errmax= 1.6094e-15) d(Node)/d(Length) check complete with 0 total errors (errmax= 1.2561e-15) ********************************************************* Starting tessellation sensitivity wrt "Height" ********************************************************* Generating perturbed configuration with delta-Height[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Height) check complete with 0 total errors (errmax= 1.6116e-15) d(Edge)/d(Height) check complete with 0 total errors (errmax= 1.7764e-15) d(Node)/d(Height) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "Depth" ********************************************************* Generating perturbed configuration with delta-Depth[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Depth) check complete with 0 total errors (errmax= 5.4159e-10) d(Edge)/d(Depth) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(Depth) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Rhole" ********************************************************* Generating perturbed configuration with delta-Rhole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Rhole) check complete with 0 total errors (errmax= 5.4791e-16) d(Edge)/d(Rhole) check complete with 0 total errors (errmax= 9.9301e-16) d(Node)/d(Rhole) check complete with 0 total errors (errmax= 9.9301e-16) ********************************************************* Starting tessellation sensitivity wrt "Xpole" ********************************************************* Generating perturbed configuration with delta-Xpole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Xpole) check complete with 0 total errors (errmax= 1.1802e-08) d(Edge)/d(Xpole) check complete with 0 total errors (errmax= 1.0127e-15) d(Node)/d(Xpole) check complete with 0 total errors (errmax= 9.9301e-16) ********************************************************* Starting tessellation sensitivity wrt "Ypole" ********************************************************* Generating perturbed configuration with delta-Ypole[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Ypole) check complete with 0 total errors (errmax= 8.9751e-16) d(Edge)/d(Ypole) check complete with 0 total errors (errmax= 9.5934e-16) d(Node)/d(Ypole) check complete with 0 total errors (errmax= 9.9301e-16) ********************************************************* Starting tessellation sensitivity wrt "Rpole" ********************************************************* Generating perturbed configuration with delta-Rpole[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Rpole) check complete with 0 total errors (errmax= 4.6614e-16) d(Edge)/d(Rpole) check complete with 0 total errors (errmax= 3.0201e-16) d(Node)/d(Rpole) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "XangDeg" ********************************************************* Generating perturbed configuration with delta-XangDeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(XangDeg) check complete with 0 total errors (errmax= 5.1402e-10) d(Edge)/d(XangDeg) check complete with 0 total errors (errmax= 5.1678e-10) d(Node)/d(XangDeg) check complete with 0 total errors (errmax= 5.7116e-10) ********************************************************* Starting tessellation sensitivity wrt "YangDeg" ********************************************************* Generating perturbed configuration with delta-YangDeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(YangDeg) check complete with 0 total errors (errmax= 9.5002e-10) d(Edge)/d(YangDeg) check complete with 0 total errors (errmax= 1.0217e-09) d(Node)/d(YangDeg) check complete with 0 total errors (errmax= 1.0217e-09) ********************************************************* Starting tessellation sensitivity wrt "ZangDeg" ********************************************************* Generating perturbed configuration with delta-ZangDeg[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(ZangDeg) check complete with 0 total errors (errmax= 8.2247e-07) d(Edge)/d(ZangDeg) check complete with 0 total errors (errmax= 8.4778e-07) d(Node)/d(ZangDeg) check complete with 0 total errors (errmax= 8.4778e-07) ********************************************************* Starting tessellation sensitivity wrt "Dx" ********************************************************* Generating perturbed configuration with delta-Dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dx) check complete with 0 total errors (errmax= 2.2129e-09) d(Edge)/d(Dx) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Dx) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Dy" ********************************************************* Generating perturbed configuration with delta-Dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dy) check complete with 0 total errors (errmax= 7.3764e-10) d(Edge)/d(Dy) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Dy) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Dz" ********************************************************* Generating perturbed configuration with delta-Dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Dz) check complete with 0 total errors (errmax= 5.4159e-10) d(Edge)/d(Dz) check complete with 0 total errors (errmax= 2.6891e-16) d(Node)/d(Dz) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "Scale" ********************************************************* Generating perturbed configuration with delta-Scale[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(Scale) check complete with 0 total errors (errmax= 2.5748e-08) d(Edge)/d(Scale) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Scale) check complete with 0 total errors (errmax= 8.8818e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.285 sec Sensitivity checks complete with 0 total errors (max tess err= 8.4778e-07) with 0 suppressions real 0m6.325s user 0m6.457s sys 0m0.759s ++ set +x -------------------------------------------------------------------------------------------------- ( 35 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "thick" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.01000000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00600000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "sweep" ********************************************************* Generating perturbed configuration with delta-sweep[1,1]= 0.02000000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "washout" ********************************************************* Generating perturbed configuration with delta-washout[1,1]= 0.00500000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00400000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "xnose" ********************************************************* Generating perturbed configuration with delta-xnose[1,1]= 0.00200000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "xtail" ********************************************************* Generating perturbed configuration with delta-xtail[1,1]= 0.00500000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "fuserad" ********************************************************* Generating perturbed configuration with delta-fuserad[1,1]= 0.00100000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "spar1" ********************************************************* Generating perturbed configuration with delta-spar1[1,1]= 0.00100000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ********************************************************* Starting tessellation sensitivity wrt "spar2" ********************************************************* Generating perturbed configuration with delta-spar2[1,1]= 0.00100000 WARNING:: 40 _hist and/or __trace__ attributes removed Computing analytic sensitivities (if possible) for ibody=11 WARNING:: 40 _hist and/or __trace__ attributes removed ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1333.265 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 6m41.669s user 14m51.401s sys 31m8.031s ++ set +x -------------------------------------------------------------------------------------------------- ( 36 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design6.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "width" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "depth" ********************************************************* Generating perturbed configuration with delta-depth[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "height" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "neckDiam" ********************************************************* Generating perturbed configuration with delta-neckDiam[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "neckHeight" ********************************************************* Generating perturbed configuration with delta-neckHeight[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "wall" ********************************************************* Generating perturbed configuration with delta-wall[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "filRad1" ********************************************************* Generating perturbed configuration with delta-filRad1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 ********************************************************* Starting tessellation sensitivity wrt "filRad2" ********************************************************* Generating perturbed configuration with delta-filRad2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 18.938 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m32.015s user 0m28.918s sys 0m1.783s ++ set +x -------------------------------------------------------------------------------------------------- ( 37 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design7.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "headLen" ********************************************************* Generating perturbed configuration with delta-headLen[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "overallLen" ********************************************************* Generating perturbed configuration with delta-overallLen[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "shaftDiam" ********************************************************* Generating perturbed configuration with delta-shaftDiam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "headAng" ********************************************************* Generating perturbed configuration with delta-headAng[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "noseRad" ********************************************************* Generating perturbed configuration with delta-noseRad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "shldrRad" ********************************************************* Generating perturbed configuration with delta-shldrRad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "finAng" ********************************************************* Generating perturbed configuration with delta-finAng[1,1]= 0.06000000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "finHeight" ********************************************************* Generating perturbed configuration with delta-finHeight[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "finLen" ********************************************************* Generating perturbed configuration with delta-finLen[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "finWidth" ********************************************************* Generating perturbed configuration with delta-finWidth[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "filRad" ********************************************************* Generating perturbed configuration with delta-filRad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=48 ********************************************************* Starting tessellation sensitivity wrt "finXlate" ********************************************************* Generating perturbed configuration with delta-finXlate[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=48 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 78.295 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 1m54.958s user 2m22.331s sys 0m10.026s ++ set +x -------------------------------------------------------------------------------------------------- ( 38 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.4429e-11) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.2439e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.1102e-15) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.6736e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(L) check complete with 0 total errors (errmax= 5.7715e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(H) check complete with 0 total errors (errmax= 8.0036e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.2726e-09) d(Node)/d(H) check complete with 0 total errors (errmax= 1.3323e-15) ********************************************************* Starting tessellation sensitivity wrt "W" ********************************************************* Generating perturbed configuration with delta-W[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(W) check complete with 0 total errors (errmax= 6.3999e-17) d(Edge)/d(W) check complete with 0 total errors (errmax= 6.4498e-17) d(Node)/d(W) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "t" ********************************************************* Generating perturbed configuration with delta-t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(t) check complete with 0 total errors (errmax= 2.7308e-08) d(Edge)/d(t) check complete with 0 total errors (errmax= 1.4339e-08) d(Node)/d(t) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.146 sec Sensitivity checks complete with 0 total errors (max tess err= 2.7308e-08) with 0 suppressions real 0m1.517s user 0m0.964s sys 0m0.422s ++ set +x -------------------------------------------------------------------------------------------------- ( 39 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.5684e-12) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.3323e-15) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0403e-10) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 7.7228e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.6736e-19) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(L) check complete with 0 total errors (errmax= 3.4275e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(H) check complete with 0 total errors (errmax= 2.7858e-07) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.8556e-07) d(Node)/d(H) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W" ********************************************************* Generating perturbed configuration with delta-W[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(W) check complete with 0 total errors (errmax= 6.4034e-17) d(Edge)/d(W) check complete with 0 total errors (errmax= 6.4498e-17) d(Node)/d(W) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(R) check complete with 0 total errors (errmax= 2.8265e-07) d(Edge)/d(R) check complete with 0 total errors (errmax= 2.8508e-07) d(Node)/d(R) check complete with 0 total errors (errmax= 2.2204e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.149 sec Sensitivity checks complete with 0 total errors (max tess err= 2.8556e-07) with 0 suppressions real 0m1.633s user 0m0.983s sys 0m0.374s ++ set +x -------------------------------------------------------------------------------------------------- ( 40 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcent" ********************************************************* Generating perturbed configuration with delta-xcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xcent) check complete with 0 total errors (errmax= 2.5175e-11) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 1.1177e-09) d(Node)/d(xcent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ycent" ********************************************************* Generating perturbed configuration with delta-ycent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ycent) check complete with 0 total errors (errmax= 7.5805e-09) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.5264e-09) d(Node)/d(ycent) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zcent" ********************************************************* Generating perturbed configuration with delta-zcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zcent) check complete with 0 total errors (errmax= 8.0197e-10) d(Edge)/d(zcent) check complete with 0 total errors (errmax= 1.7602e-09) d(Node)/d(zcent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(L) check complete with 0 total errors (errmax= 2.5175e-11) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.5871e-09) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(H) check complete with 0 total errors (errmax= 2.6001e-07) d(Edge)/d(H) check complete with 0 total errors (errmax= 8.0563e-07) d(Node)/d(H) check complete with 0 total errors (errmax= 8.0563e-07) ********************************************************* Starting tessellation sensitivity wrt "W" ********************************************************* Generating perturbed configuration with delta-W[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(W) check complete with 0 total errors (errmax= 2.5785e-07) d(Edge)/d(W) check complete with 0 total errors (errmax= 8.0354e-07) d(Node)/d(W) check complete with 0 total errors (errmax= 8.0354e-07) ********************************************************* Starting tessellation sensitivity wrt "t" ********************************************************* Generating perturbed configuration with delta-t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(t) check complete with 0 total errors (errmax= 1.1727e-07) d(Edge)/d(t) check complete with 0 total errors (errmax= 5.5461e-07) d(Node)/d(t) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.316 sec Sensitivity checks complete with 0 total errors (max tess err= 8.0563e-07) with 0 suppressions real 0m3.394s user 0m3.360s sys 0m1.512s ++ set +x -------------------------------------------------------------------------------------------------- ( 41 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcent" ********************************************************* Generating perturbed configuration with delta-xcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xcent) check complete with 0 total errors (errmax= 9.1706e-17) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 9.1706e-17) d(Node)/d(xcent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ycent" ********************************************************* Generating perturbed configuration with delta-ycent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ycent) check complete with 0 total errors (errmax= 1.5578e-19) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(ycent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zcent" ********************************************************* Generating perturbed configuration with delta-zcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zcent) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zcent) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zcent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(L) check complete with 0 total errors (errmax= 9.2783e-17) d(Edge)/d(L) check complete with 0 total errors (errmax= 9.2783e-17) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(H) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "W" ********************************************************* Generating perturbed configuration with delta-W[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(W) check complete with 0 total errors (errmax= 2.2662e-17) d(Edge)/d(W) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(W) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max tess err= 9.2793e-17) with 0 suppressions real 0m0.313s user 0m0.166s sys 0m0.119s ++ set +x -------------------------------------------------------------------------------------------------- ( 42 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design8d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg1" ********************************************************* Generating perturbed configuration with delta-xbeg1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xbeg1) check complete with 0 total errors (errmax= 6.6254e-17) d(Edge)/d(xbeg1) check complete with 0 total errors (errmax= 1.2840e-12) d(Node)/d(xbeg1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xend1" ********************************************************* Generating perturbed configuration with delta-xend1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(xend1) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(y1) check complete with 0 total errors (errmax= 1.3043e-08) d(Edge)/d(y1) check complete with 0 total errors (errmax= 3.8643e-12) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(z1) check complete with 0 total errors (errmax= 1.6419e-07) d(Edge)/d(z1) check complete with 0 total errors (errmax= 7.3127e-07) d(Node)/d(z1) check complete with 0 total errors (errmax= 1.0766e-06) ********************************************************* Starting tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(r1) check complete with 0 total errors (errmax= 1.1017e-07) d(Edge)/d(r1) check complete with 0 total errors (errmax= 6.5958e-07) d(Node)/d(r1) check complete with 0 total errors (errmax= 8.0904e-07) ********************************************************* Starting tessellation sensitivity wrt "th1" ********************************************************* Generating perturbed configuration with delta-th1[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(th1) check complete with 0 total errors (errmax= 6.9442e-08) d(Edge)/d(th1) check complete with 0 total errors (errmax= 7.9032e-08) d(Node)/d(th1) check complete with 0 total errors (errmax= 7.4837e-08) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(x2) check complete with 0 total errors (errmax= 2.2960e-08) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.0688e-12) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.1102e-15) ********************************************************* Starting tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(z2) check complete with 0 total errors (errmax= 1.8879e-07) d(Edge)/d(z2) check complete with 0 total errors (errmax= 7.3253e-07) d(Node)/d(z2) check complete with 0 total errors (errmax= 1.0789e-06) ********************************************************* Starting tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(r2) check complete with 0 total errors (errmax= 4.1252e-08) d(Edge)/d(r2) check complete with 0 total errors (errmax= 2.9900e-07) d(Node)/d(r2) check complete with 0 total errors (errmax= 4.3113e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.056 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0789e-06) with 0 suppressions real 0m2.889s user 0m2.778s sys 0m1.149s ++ set +x -------------------------------------------------------------------------------------------------- ( 43 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/design9.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "fuse[1,1]" ********************************************************* Generating perturbed configuration with delta-fuse[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 15 ( -0.001504 0.000501 0.000007) iend = 43 ( -0.001504 0.000501 0.000000) err=( 0.000000 0.000000 -0.000007) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.2194e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.0898e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.2351e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[1,2]" ********************************************************* Generating perturbed configuration with delta-fuse[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.005558 -0.001852 0.000003) ibeg = 31 ( -0.005558 -0.001853 0.000000) err=( 0.000000 -0.000000 -0.000003) WARNING:: dxyz mismatch: inode= 15 ( -0.005529 0.001841 0.000026) iend = 43 ( -0.005528 0.001843 0.000000) err=( 0.000001 0.000002 -0.000026) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.8028e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.8582e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.3270e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[1,3]" ********************************************************* Generating perturbed configuration with delta-fuse[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.002111 -0.000704 0.000002) ibeg = 31 ( -0.002111 -0.000704 0.000000) err=( 0.000000 -0.000000 -0.000002) WARNING:: dxyz mismatch: inode= 15 ( -0.002089 0.000695 0.000020) iend = 43 ( -0.002089 0.000696 0.000000) err=( 0.000000 0.000001 -0.000020) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2919e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.3934e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.1468e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[1,4]" ********************************************************* Generating perturbed configuration with delta-fuse[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.000921 -0.000307 0.000001) ibeg = 31 ( -0.000921 -0.000307 0.000000) err=( 0.000000 -0.000000 -0.000001) WARNING:: dxyz mismatch: inode= 15 ( -0.000910 0.000303 0.000010) iend = 43 ( -0.000909 0.000303 0.000000) err=( 0.000000 0.000001 -0.000010) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.2469e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 7.1914e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.6631e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[2,1]" ********************************************************* Generating perturbed configuration with delta-fuse[2,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 15 ( 0.000562 -0.000187 0.000001) iend = 43 ( 0.000562 -0.000187 -0.000000) err=( 0.000000 0.000000 -0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 9.7280e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.0072e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0899e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[2,2]" ********************************************************* Generating perturbed configuration with delta-fuse[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.020042 0.006680 -0.000006) ibeg = 31 ( 0.020042 0.006681 -0.000000) err=( -0.000000 0.000001 0.000006) WARNING:: dxyz mismatch: inode= 15 ( 0.019975 -0.006654 -0.000060) iend = 43 ( 0.019974 -0.006658 -0.000000) err=( -0.000001 -0.000004 0.000060) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.4151e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.2607e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 9.9478e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[2,3]" ********************************************************* Generating perturbed configuration with delta-fuse[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.007877 0.002625 -0.000006) ibeg = 31 ( 0.007877 0.002626 -0.000000) err=( -0.000000 0.000001 0.000006) WARNING:: dxyz mismatch: inode= 15 ( 0.007809 -0.002598 -0.000061) iend = 43 ( 0.007807 -0.002602 -0.000000) err=( -0.000001 -0.000004 0.000061) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.1399e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.3507e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0172e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[2,4]" ********************************************************* Generating perturbed configuration with delta-fuse[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.003074 0.001024 -0.000002) ibeg = 31 ( 0.003073 0.001024 -0.000000) err=( -0.000000 0.000000 0.000002) WARNING:: dxyz mismatch: inode= 15 ( 0.003047 -0.001014 -0.000024) iend = 43 ( 0.003047 -0.001016 -0.000000) err=( -0.000001 -0.000002 0.000024) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.1584e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6671e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.9305e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[3,1]" ********************************************************* Generating perturbed configuration with delta-fuse[3,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.004181 0.001393 -0.000004) ibeg = 31 ( 0.004181 0.001394 -0.000000) err=( -0.000000 0.000000 0.000004) WARNING:: dxyz mismatch: inode= 15 ( 0.004142 -0.001378 -0.000035) iend = 43 ( 0.004141 -0.001380 -0.000000) err=( -0.000001 -0.000002 0.000035) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.5168e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 7.3806e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.9979e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[3,2]" ********************************************************* Generating perturbed configuration with delta-fuse[3,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.074148 -0.024713 0.000026) ibeg = 31 ( -0.074147 -0.024716 0.000000) err=( 0.000001 -0.000003 -0.000026) WARNING:: dxyz mismatch: inode= 15 ( -0.073870 0.024605 0.000250) iend = 43 ( -0.073865 0.024622 0.000000) err=( 0.000005 0.000016 -0.000250) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 9.9229e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.7697e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.2423e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[3,3]" ********************************************************* Generating perturbed configuration with delta-fuse[3,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.028873 -0.009621 0.000025) ibeg = 31 ( -0.028872 -0.009624 0.000000) err=( 0.000001 -0.000003 -0.000025) WARNING:: dxyz mismatch: inode= 15 ( -0.028610 0.009520 0.000237) iend = 43 ( -0.028605 0.009535 0.000000) err=( 0.000005 0.000015 -0.000237) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.4138e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6739e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.9526e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[3,4]" ********************************************************* Generating perturbed configuration with delta-fuse[3,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.010594 -0.003530 0.000009) ibeg = 31 ( -0.010594 -0.003531 0.000000) err=( 0.000000 -0.000001 -0.000009) WARNING:: dxyz mismatch: inode= 15 ( -0.010495 0.003492 0.000089) iend = 43 ( -0.010494 0.003498 0.000000) err=( 0.000002 0.000006 -0.000089) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 6.8776e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.2739e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4794e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[4,1]" ********************************************************* Generating perturbed configuration with delta-fuse[4,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.014393 -0.004796 0.000013) ibeg = 31 ( -0.014392 -0.004797 0.000000) err=( 0.000000 -0.000001 -0.000013) WARNING:: dxyz mismatch: inode= 15 ( -0.014257 0.004744 0.000122) iend = 43 ( -0.014254 0.004751 0.000000) err=( 0.000003 0.000008 -0.000122) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.4827e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.4530e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 9.2065e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[4,2]" ********************************************************* Generating perturbed configuration with delta-fuse[4,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.283506 0.094490 -0.000101) ibeg = 31 ( 0.283502 0.094501 -0.000000) err=( -0.000004 0.000011 0.000101) WARNING:: dxyz mismatch: inode= 15 ( 0.282443 -0.094079 -0.000957) iend = 43 ( 0.282422 -0.094141 -0.000000) err=( -0.000021 -0.000062 0.000957) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.7734e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.8128e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4423e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[4,3]" ********************************************************* Generating perturbed configuration with delta-fuse[4,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.110578 0.036848 -0.000095) ibeg = 31 ( 0.110575 0.036858 -0.000000) err=( -0.000003 0.000010 0.000095) WARNING:: dxyz mismatch: inode= 15 ( 0.109575 -0.036460 -0.000903) iend = 43 ( 0.109555 -0.036518 -0.000000) err=( -0.000019 -0.000058 0.000903) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.2732e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.4252e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4538e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[4,4]" ********************************************************* Generating perturbed configuration with delta-fuse[4,4]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.041958 0.013981 -0.000037) ibeg = 31 ( 0.041956 0.013985 -0.000000) err=( -0.000001 0.000004 0.000037) WARNING:: dxyz mismatch: inode= 15 ( 0.041566 -0.013830 -0.000352) iend = 43 ( 0.041559 -0.013853 -0.000000) err=( -0.000008 -0.000023 0.000352) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.9943e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.9995e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.9571e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[5,1]" ********************************************************* Generating perturbed configuration with delta-fuse[5,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.029169 0.009721 -0.000021) ibeg = 31 ( 0.029168 0.009723 -0.000000) err=( -0.000001 0.000002 0.000021) WARNING:: dxyz mismatch: inode= 15 ( 0.028951 -0.009636 -0.000197) iend = 43 ( 0.028946 -0.009649 -0.000000) err=( -0.000004 -0.000013 0.000197) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.5129e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.9968e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.5350e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[5,2]" ********************************************************* Generating perturbed configuration with delta-fuse[5,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -1.228612 -0.409484 0.000437) ibeg = 31 ( -1.228596 -0.409532 0.000000) err=( 0.000016 -0.000048 -0.000437) WARNING:: dxyz mismatch: inode= 15 ( -1.224005 0.407706 0.004146) ibeg = 20 ( -1.224005 0.407707 0.004147) err=( -0.000000 0.000001 0.000001) WARNING:: dxyz mismatch: inode= 15 ( -1.224005 0.407706 0.004146) iend = 43 ( -1.223916 0.407972 0.000000) err=( 0.000089 0.000267 -0.004146) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.7958e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.8680e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0873e-05) ********************************************************* Starting tessellation sensitivity wrt "fuse[5,3]" ********************************************************* Generating perturbed configuration with delta-fuse[5,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.480959 -0.160270 0.000413) ibeg = 31 ( -0.480944 -0.160315 0.000000) err=( 0.000015 -0.000045 -0.000413) WARNING:: dxyz mismatch: inode= 15 ( -0.476597 0.158585 0.003925) iend = 43 ( -0.476513 0.158838 0.000000) err=( 0.000084 0.000252 -0.003925) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.4330e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.7302e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 7.4762e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[5,4]" ********************************************************* Generating perturbed configuration with delta-fuse[5,4]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.185100 -0.061681 0.000158) ibeg = 31 ( -0.185094 -0.061698 0.000000) err=( 0.000006 -0.000017 -0.000158) WARNING:: dxyz mismatch: inode= 15 ( -0.183426 0.061034 0.001506) iend = 43 ( -0.183394 0.061131 0.000000) err=( 0.000032 0.000097 -0.001506) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 9.8886e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2672e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.0791e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[6,1]" ********************************************************* Generating perturbed configuration with delta-fuse[6,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.000903 -0.000302 -0.000004) ibeg = 31 ( -0.000903 -0.000301 0.000000) err=( -0.000000 0.000000 0.000004) WARNING:: dxyz mismatch: inode= 15 ( -0.000944 0.000317 -0.000037) iend = 43 ( -0.000945 0.000315 0.000000) err=( -0.000001 -0.000002 0.000037) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.9401e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.5600e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.8842e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[6,2]" ********************************************************* Generating perturbed configuration with delta-fuse[6,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -1.927561 -0.642437 0.000686) ibeg = 31 ( -1.927536 -0.642512 0.000000) err=( 0.000025 -0.000075 -0.000686) WARNING:: dxyz mismatch: inode= 15 ( -1.920334 0.639647 0.006505) ibeg = 20 ( -1.920334 0.639648 0.006506) err=( -0.000000 0.000002 0.000001) WARNING:: dxyz mismatch: inode= 15 ( -1.920334 0.639647 0.006505) iend = 43 ( -1.920195 0.640065 0.000000) err=( 0.000139 0.000418 -0.006505) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.3250e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.4378e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.8525e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[6,3]" ********************************************************* Generating perturbed configuration with delta-fuse[6,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.755543 -0.251769 0.000648) ibeg = 31 ( -0.755520 -0.251840 0.000000) err=( 0.000024 -0.000071 -0.000648) WARNING:: dxyz mismatch: inode= 10 ( -0.000014 -0.000030 -0.000000) ibeg = 37 ( -0.000014 -0.000030 -0.000002) err=( 0.000000 0.000000 -0.000001) WARNING:: dxyz mismatch: inode= 15 ( -0.748689 0.249122 0.006168) ibeg = 20 ( -0.748689 0.249124 0.006169) err=( -0.000000 0.000002 0.000001) WARNING:: dxyz mismatch: inode= 15 ( -0.748689 0.249122 0.006168) iend = 43 ( -0.748557 0.249519 0.000000) err=( 0.000132 0.000397 -0.006168) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.3358e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.2499e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0399e-05) ********************************************************* Starting tessellation sensitivity wrt "fuse[6,4]" ********************************************************* Generating perturbed configuration with delta-fuse[6,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.288640 -0.096183 0.000249) ibeg = 31 ( -0.288631 -0.096210 0.000000) err=( 0.000009 -0.000027 -0.000249) WARNING:: dxyz mismatch: inode= 15 ( -0.286012 0.095168 0.002366) iend = 43 ( -0.285961 0.095320 0.000000) err=( 0.000051 0.000152 -0.002366) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.2901e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6542e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.7391e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[7,1]" ********************************************************* Generating perturbed configuration with delta-fuse[7,1]= 0.00700000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.011889 -0.003962 0.000005) ibeg = 31 ( -0.011889 -0.003963 0.000000) err=( 0.000000 -0.000001 -0.000005) WARNING:: dxyz mismatch: inode= 15 ( -0.011837 0.003942 0.000047) iend = 43 ( -0.011836 0.003945 0.000000) err=( 0.000001 0.000003 -0.000047) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.4309e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.3066e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 7.1972e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[7,2]" ********************************************************* Generating perturbed configuration with delta-fuse[7,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.361056 0.120336 -0.000129) ibeg = 31 ( 0.361051 0.120350 -0.000000) err=( -0.000005 0.000014 0.000129) WARNING:: dxyz mismatch: inode= 15 ( 0.359699 -0.119812 -0.001221) iend = 43 ( 0.359673 -0.119891 -0.000000) err=( -0.000026 -0.000079 0.001221) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.8699e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.7129e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.0481e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[7,3]" ********************************************************* Generating perturbed configuration with delta-fuse[7,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.141731 0.047229 -0.000121) ibeg = 31 ( 0.141727 0.047242 -0.000000) err=( -0.000004 0.000013 0.000121) WARNING:: dxyz mismatch: inode= 10 ( 0.000053 0.000114 0.000001) ibeg = 37 ( 0.000053 0.000114 0.000006) err=( -0.000000 -0.000000 0.000005) WARNING:: dxyz mismatch: inode= 15 ( 0.140448 -0.046733 -0.001155) iend = 43 ( 0.140423 -0.046808 -0.000000) err=( -0.000025 -0.000074 0.001155) WARNING:: dxyz mismatch: inode= 18 ( 0.000054 -0.000117 0.000008) iend = 49 ( 0.000054 -0.000117 0.000006) err=( 0.000000 -0.000000 -0.000002) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 8.8058e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.2243e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8773e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[7,4]" ********************************************************* Generating perturbed configuration with delta-fuse[7,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.054672 0.018218 -0.000047) ibeg = 31 ( 0.054670 0.018223 -0.000000) err=( -0.000002 0.000005 0.000047) WARNING:: dxyz mismatch: inode= 10 ( 0.000030 0.000065 0.000001) ibeg = 37 ( 0.000030 0.000065 0.000003) err=( -0.000000 -0.000000 0.000003) WARNING:: dxyz mismatch: inode= 15 ( 0.054176 -0.018027 -0.000447) iend = 43 ( 0.054166 -0.018055 -0.000000) err=( -0.000010 -0.000029 0.000447) WARNING:: dxyz mismatch: inode= 18 ( 0.000031 -0.000066 0.000004) iend = 49 ( 0.000031 -0.000066 0.000003) err=( 0.000000 -0.000000 -0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.2086e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.1744e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 7.4471e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[8,1]" ********************************************************* Generating perturbed configuration with delta-fuse[8,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.010087 0.003362 -0.000003) ibeg = 31 ( 0.010087 0.003362 -0.000000) err=( -0.000000 0.000000 0.000003) WARNING:: dxyz mismatch: inode= 10 ( 0.000080 0.000171 0.000010) ibeg = 37 ( 0.000080 0.000171 0.000009) err=( 0.000000 0.000000 -0.000001) WARNING:: dxyz mismatch: inode= 15 ( 0.010061 -0.003352 -0.000024) iend = 43 ( 0.010060 -0.003353 -0.000000) err=( -0.000001 -0.000002 0.000024) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.8561e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.3480e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.1211e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[8,2]" ********************************************************* Generating perturbed configuration with delta-fuse[8,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.096636 -0.032208 0.000034) ibeg = 31 ( -0.096635 -0.032212 0.000000) err=( 0.000001 -0.000004 -0.000034) WARNING:: dxyz mismatch: inode= 10 ( -0.001015 -0.002177 -0.000112) ibeg = 37 ( -0.001015 -0.002177 -0.000114) err=( 0.000000 0.000000 -0.000003) WARNING:: dxyz mismatch: inode= 15 ( -0.096274 0.032068 0.000327) iend = 43 ( -0.096267 0.032089 0.000000) err=( 0.000007 0.000021 -0.000327) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 6.1582e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.3082e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.3410e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[8,3]" ********************************************************* Generating perturbed configuration with delta-fuse[8,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.038178 -0.012722 0.000033) ibeg = 31 ( -0.038177 -0.012726 0.000000) err=( 0.000001 -0.000004 -0.000033) WARNING:: dxyz mismatch: inode= 10 ( -0.000199 -0.000428 -0.000003) ibeg = 37 ( -0.000199 -0.000427 -0.000022) err=( 0.000000 0.000001 -0.000019) WARNING:: dxyz mismatch: inode= 15 ( -0.037832 0.012589 0.000311) iend = 43 ( -0.037826 0.012609 0.000000) err=( 0.000007 0.000020 -0.000311) WARNING:: dxyz mismatch: inode= 18 ( -0.000203 0.000435 -0.000030) iend = 49 ( -0.000203 0.000436 -0.000023) err=( -0.000000 0.000000 0.000007) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.4935e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.2034e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.1569e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[8,4]" ********************************************************* Generating perturbed configuration with delta-fuse[8,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.014934 -0.004976 0.000013) ibeg = 31 ( -0.014933 -0.004978 0.000000) err=( 0.000000 -0.000001 -0.000013) WARNING:: dxyz mismatch: inode= 10 ( -0.000114 -0.000244 -0.000002) ibeg = 37 ( -0.000114 -0.000243 -0.000013) err=( 0.000000 0.000000 -0.000011) WARNING:: dxyz mismatch: inode= 15 ( -0.014800 0.004925 0.000120) iend = 43 ( -0.014798 0.004933 0.000000) err=( 0.000003 0.000008 -0.000120) WARNING:: dxyz mismatch: inode= 18 ( -0.000116 0.000248 -0.000017) iend = 49 ( -0.000116 0.000248 -0.000013) err=( -0.000000 0.000000 0.000004) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.1087e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.4896e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.9746e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[9,1]" ********************************************************* Generating perturbed configuration with delta-fuse[9,1]= 0.00900000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 15 ( -0.002167 0.000722 0.000006) iend = 43 ( -0.002166 0.000722 0.000000) err=( 0.000000 0.000000 -0.000006) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.4997e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 7.1433e-02) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.1002e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[9,2]" ********************************************************* Generating perturbed configuration with delta-fuse[9,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.025941 0.008646 -0.000009) ibeg = 31 ( 0.025941 0.008647 -0.000000) err=( -0.000000 0.000001 0.000009) WARNING:: dxyz mismatch: inode= 10 ( 0.003788 0.008123 0.000416) ibeg = 37 ( 0.003788 0.008123 0.000426) err=( -0.000000 -0.000000 0.000009) WARNING:: dxyz mismatch: inode= 15 ( 0.025844 -0.008608 -0.000088) iend = 43 ( 0.025842 -0.008614 -0.000000) err=( -0.000002 -0.000006 0.000088) WARNING:: dxyz mismatch: inode= 18 ( 0.003790 -0.008127 0.000429) iend = 49 ( 0.003790 -0.008127 0.000426) err=( 0.000000 -0.000000 -0.000003) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.5741e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.2428e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4395e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[9,3]" ********************************************************* Generating perturbed configuration with delta-fuse[9,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.010224 0.003407 -0.000009) ibeg = 31 ( 0.010224 0.003408 -0.000000) err=( -0.000000 0.000001 0.000009) WARNING:: dxyz mismatch: inode= 10 ( 0.000743 0.001593 0.000012) ibeg = 37 ( 0.000741 0.001590 0.000083) err=( -0.000002 -0.000003 0.000072) WARNING:: dxyz mismatch: inode= 15 ( 0.010131 -0.003371 -0.000084) iend = 43 ( 0.010129 -0.003376 -0.000000) err=( -0.000002 -0.000005 0.000084) WARNING:: dxyz mismatch: inode= 18 ( 0.000757 -0.001622 0.000110) iend = 49 ( 0.000757 -0.001623 0.000085) err=( 0.000000 -0.000001 -0.000025) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.9093e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.7387e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.3874e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[9,4]" ********************************************************* Generating perturbed configuration with delta-fuse[9,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.003963 0.001321 -0.000004) ibeg = 31 ( 0.003963 0.001321 -0.000000) err=( -0.000000 0.000000 0.000004) WARNING:: dxyz mismatch: inode= 10 ( 0.000417 0.000893 0.000007) ibeg = 37 ( 0.000416 0.000892 0.000047) err=( -0.000001 -0.000002 0.000040) WARNING:: dxyz mismatch: inode= 15 ( 0.003925 -0.001306 -0.000034) iend = 43 ( 0.003925 -0.001308 -0.000000) err=( -0.000001 -0.000002 0.000034) WARNING:: dxyz mismatch: inode= 18 ( 0.000424 -0.000910 0.000062) iend = 49 ( 0.000424 -0.000910 0.000048) err=( 0.000000 -0.000001 -0.000014) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.1342e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.8725e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 5.6316e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[10,1]" ********************************************************* Generating perturbed configuration with delta-fuse[10,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 8 ( -0.000018 0.049527 -0.000137) ibeg = 29 ( -0.000019 0.049527 -0.000139) err=( -0.000000 -0.000000 -0.000002) WARNING:: dxyz mismatch: inode= 9 ( 0.000019 0.049203 0.000140) ibeg = 33 ( 0.000018 0.049203 0.000138) err=( -0.000000 0.000000 -0.000002) WARNING:: dxyz mismatch: inode= 10 ( 0.000409 0.000877 0.000045) ibeg = 37 ( 0.000409 0.000877 0.000046) err=( -0.000000 -0.000000 0.000001) WARNING:: dxyz mismatch: inode= 14 ( -0.000018 -0.049528 -0.000136) iend = 42 ( -0.000019 -0.049528 -0.000139) err=( -0.000000 0.000000 -0.000004) WARNING:: dxyz mismatch: inode= 15 ( 0.000531 -0.000177 -0.000002) iend = 43 ( 0.000531 -0.000177 -0.000000) err=( -0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 16 ( 0.000019 -0.049202 0.000140) iend = 45 ( 0.000018 -0.049202 0.000138) err=( -0.000000 -0.000000 -0.000002) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.3542e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.1298e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8742e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[10,2]" ********************************************************* Generating perturbed configuration with delta-fuse[10,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.006971 -0.002323 0.000003) ibeg = 31 ( -0.006971 -0.002324 0.000000) err=( 0.000000 -0.000000 -0.000003) WARNING:: dxyz mismatch: inode= 8 ( 0.000350 -0.947452 0.002628) ibeg = 29 ( 0.000355 -0.947452 0.002662) err=( 0.000005 0.000000 0.000034) WARNING:: dxyz mismatch: inode= 9 ( -0.000357 -0.937936 -0.002675) ibeg = 33 ( -0.000351 -0.937936 -0.002636) err=( 0.000005 -0.000000 0.000039) WARNING:: dxyz mismatch: inode= 10 ( -0.014252 -0.030562 -0.001567) ibeg = 37 ( -0.014251 -0.030561 -0.001602) err=( 0.000001 0.000001 -0.000035) WARNING:: dxyz mismatch: inode= 14 ( 0.000347 0.947460 0.002605) iend = 42 ( 0.000355 0.947460 0.002662) err=( 0.000008 -0.000000 0.000058) WARNING:: dxyz mismatch: inode= 15 ( -0.006942 0.002312 0.000026) iend = 43 ( -0.006941 0.002314 0.000000) err=( 0.000001 0.000002 -0.000026) WARNING:: dxyz mismatch: inode= 16 ( -0.000355 0.937932 -0.002665) iend = 45 ( -0.000351 0.937932 -0.002636) err=( 0.000004 0.000000 0.000029) WARNING:: dxyz mismatch: inode= 18 ( -0.014258 0.030577 -0.001615) iend = 49 ( -0.014258 0.030577 -0.001602) err=( -0.000000 0.000001 0.000012) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.0110e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.7820e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.0370e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[10,3]" ********************************************************* Generating perturbed configuration with delta-fuse[10,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -0.002743 -0.000914 0.000002) ibeg = 31 ( -0.002743 -0.000914 0.000000) err=( 0.000000 -0.000000 -0.000002) WARNING:: dxyz mismatch: inode= 8 ( 0.000074 -0.220058 0.000554) ibeg = 29 ( 0.000082 -0.220057 0.000618) err=( 0.000009 0.000000 0.000065) WARNING:: dxyz mismatch: inode= 9 ( -0.000098 -0.251785 -0.000738) ibeg = 33 ( -0.000094 -0.251785 -0.000708) err=( 0.000004 -0.000000 0.000030) WARNING:: dxyz mismatch: inode= 10 ( -0.002780 -0.005959 -0.000043) ibeg = 37 ( -0.002774 -0.005948 -0.000312) err=( 0.000007 0.000011 -0.000268) WARNING:: dxyz mismatch: inode= 14 ( 0.000068 0.220072 0.000510) iend = 42 ( 0.000082 0.220072 0.000618) err=( 0.000015 -0.000000 0.000109) WARNING:: dxyz mismatch: inode= 15 ( -0.002718 0.000904 0.000022) iend = 43 ( -0.002718 0.000906 0.000000) err=( 0.000000 0.000001 -0.000022) WARNING:: dxyz mismatch: inode= 16 ( -0.000097 0.251782 -0.000730) iend = 45 ( -0.000094 0.251782 -0.000708) err=( 0.000003 0.000000 0.000023) WARNING:: dxyz mismatch: inode= 18 ( -0.002831 0.006068 -0.000413) iend = 49 ( -0.002832 0.006072 -0.000318) err=( -0.000001 0.000005 0.000095) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.5826e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 4.1834e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.3417e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[10,4]" ********************************************************* Generating perturbed configuration with delta-fuse[10,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 8 ( 0.000038 -0.114054 0.000287) ibeg = 29 ( 0.000043 -0.114054 0.000321) err=( 0.000004 0.000000 0.000033) WARNING:: dxyz mismatch: inode= 9 ( -0.000047 -0.121389 -0.000356) ibeg = 33 ( -0.000045 -0.121389 -0.000341) err=( 0.000002 -0.000000 0.000015) WARNING:: dxyz mismatch: inode= 10 ( -0.001553 -0.003328 -0.000024) ibeg = 37 ( -0.001549 -0.003322 -0.000174) err=( 0.000004 0.000006 -0.000150) WARNING:: dxyz mismatch: inode= 14 ( 0.000035 0.114062 0.000264) iend = 42 ( 0.000043 0.114061 0.000321) err=( 0.000008 -0.000000 0.000056) WARNING:: dxyz mismatch: inode= 15 ( -0.001041 0.000346 0.000009) iend = 43 ( -0.001041 0.000347 0.000000) err=( 0.000000 0.000001 -0.000009) WARNING:: dxyz mismatch: inode= 16 ( -0.000047 0.121388 -0.000352) iend = 45 ( -0.000045 0.121388 -0.000341) err=( 0.000001 0.000000 0.000011) WARNING:: dxyz mismatch: inode= 18 ( -0.001581 0.003389 -0.000231) iend = 49 ( -0.001581 0.003391 -0.000178) err=( -0.000000 0.000003 0.000053) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.8393e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.1687e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.6029e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[11,1]" ********************************************************* Generating perturbed configuration with delta-fuse[11,1]= 0.01100000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.1606e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.3908e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.5697e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[11,2]" ********************************************************* Generating perturbed configuration with delta-fuse[11,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.053318 0.114339 0.005861) ibeg = 37 ( 0.053315 0.114334 0.005992) err=( -0.000003 -0.000005 0.000131) WARNING:: dxyz mismatch: inode= 15 ( 0.001874 -0.000624 -0.000006) iend = 43 ( 0.001874 -0.000625 -0.000000) err=( -0.000000 -0.000000 0.000006) WARNING:: dxyz mismatch: inode= 18 ( 0.053343 -0.114393 0.006041) iend = 49 ( 0.053343 -0.114395 0.005995) err=( 0.000000 -0.000002 -0.000046) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 2.0264e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.5991e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4588e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[11,3]" ********************************************************* Generating perturbed configuration with delta-fuse[11,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.010386 0.022262 0.000162) ibeg = 37 ( 0.010362 0.022221 0.001165) err=( -0.000025 -0.000041 0.001003) WARNING:: dxyz mismatch: inode= 15 ( 0.000731 -0.000243 -0.000006) iend = 43 ( 0.000731 -0.000244 -0.000000) err=( -0.000000 -0.000000 0.000006) WARNING:: dxyz mismatch: inode= 18 ( 0.010576 -0.022669 0.001543) iend = 49 ( 0.010579 -0.022686 0.001189) err=( 0.000002 -0.000017 -0.000354) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.5707e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2279e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0668e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[11,4]" ********************************************************* Generating perturbed configuration with delta-fuse[11,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.005800 0.012432 0.000090) ibeg = 37 ( 0.005787 0.012409 0.000650) err=( -0.000014 -0.000023 0.000560) WARNING:: dxyz mismatch: inode= 15 ( 0.000280 -0.000093 -0.000002) iend = 43 ( 0.000280 -0.000093 -0.000000) err=( -0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 18 ( 0.005906 -0.012660 0.000862) iend = 49 ( 0.005908 -0.012669 0.000664) err=( 0.000001 -0.000010 -0.000198) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.5552e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 6.8454e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.1698e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[12,1]" ********************************************************* Generating perturbed configuration with delta-fuse[12,1]= 0.01200000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.000746 0.001599 0.000080) ibeg = 37 ( 0.000746 0.001599 0.000084) err=( -0.000000 -0.000000 0.000004) WARNING:: dxyz mismatch: inode= 18 ( 0.000746 -0.001601 0.000085) iend = 49 ( 0.000746 -0.001601 0.000084) err=( 0.000000 -0.000000 -0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.0086e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.4562e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.0919e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[12,2]" ********************************************************* Generating perturbed configuration with delta-fuse[12,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.403035 -0.864300 -0.044303) ibeg = 37 ( -0.403011 -0.864260 -0.045294) err=( 0.000024 0.000041 -0.000991) WARNING:: dxyz mismatch: inode= 15 ( -0.000506 0.000169 0.000002) iend = 43 ( -0.000506 0.000169 0.000000) err=( 0.000000 0.000000 -0.000002) WARNING:: dxyz mismatch: inode= 18 ( -0.403223 0.864702 -0.045667) iend = 49 ( -0.403225 0.864719 -0.045318) err=( -0.000002 0.000017 0.000349) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.6000e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2024e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.2178e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[12,3]" ********************************************************* Generating perturbed configuration with delta-fuse[12,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.078512 -0.168279 -0.001222) iend = 12 ( -0.078512 -0.168275 -0.001223) err=( 0.000000 0.000004 -0.000001) WARNING:: dxyz mismatch: inode= 10 ( -0.078512 -0.168279 -0.001222) ibeg = 37 ( -0.078325 -0.167969 -0.008803) err=( 0.000187 0.000310 -0.007581) WARNING:: dxyz mismatch: inode= 15 ( -0.000197 0.000066 0.000002) iend = 43 ( -0.000197 0.000066 0.000000) err=( 0.000000 0.000000 -0.000002) WARNING:: dxyz mismatch: inode= 18 ( -0.079946 0.171353 -0.011662) iend = 49 ( -0.079965 0.171485 -0.008987) err=( -0.000018 0.000132 0.002675) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.0974e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 8.9495e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 8.5145e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[12,4]" ********************************************************* Generating perturbed configuration with delta-fuse[12,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.043846 -0.093977 -0.000682) iend = 12 ( -0.043846 -0.093975 -0.000683) err=( 0.000000 0.000002 -0.000001) WARNING:: dxyz mismatch: inode= 10 ( -0.043846 -0.093977 -0.000682) ibeg = 37 ( -0.043742 -0.093804 -0.004916) err=( 0.000104 0.000173 -0.004234) WARNING:: dxyz mismatch: inode= 18 ( -0.044647 0.095694 -0.006513) iend = 49 ( -0.044657 0.095768 -0.005019) err=( -0.000010 0.000073 0.001494) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.7129e-06) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 5.0511e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.5515e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[13,1]" ********************************************************* Generating perturbed configuration with delta-fuse[13,1]= 0.01300000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.000218 -0.000467 -0.000023) ibeg = 37 ( -0.000218 -0.000467 -0.000024) err=( 0.000000 0.000000 -0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.6134e-08) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6816e-06) d(Node)/d(fuse) check complete with 0 total errors (errmax= 4.7443e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[13,2]" ********************************************************* Generating perturbed configuration with delta-fuse[13,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.125084 -0.268241 -0.013750) ibeg = 37 ( -0.125077 -0.268228 -0.014057) err=( 0.000008 0.000013 -0.000307) WARNING:: dxyz mismatch: inode= 18 ( -0.125142 0.268365 -0.014173) iend = 49 ( -0.125143 0.268371 -0.014065) err=( -0.000001 0.000005 0.000108) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.6406e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.7395e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 3.1661e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[13,3]" ********************************************************* Generating perturbed configuration with delta-fuse[13,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.024367 -0.052226 -0.000379) iend = 12 ( -0.024367 -0.052225 -0.000380) err=( 0.000000 0.000001 -0.000000) WARNING:: dxyz mismatch: inode= 10 ( -0.024367 -0.052226 -0.000379) ibeg = 37 ( -0.024309 -0.052130 -0.002732) err=( 0.000058 0.000096 -0.002353) WARNING:: dxyz mismatch: inode= 18 ( -0.024812 0.053180 -0.003619) iend = 49 ( -0.024817 0.053221 -0.002789) err=( -0.000006 0.000041 0.000830) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 4.8077e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.8379e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.5487e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[13,4]" ********************************************************* Generating perturbed configuration with delta-fuse[13,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.013608 -0.029166 -0.000212) ibeg = 37 ( -0.013575 -0.029113 -0.001526) err=( 0.000032 0.000054 -0.001314) WARNING:: dxyz mismatch: inode= 18 ( -0.013856 0.029699 -0.002021) iend = 49 ( -0.013860 0.029722 -0.001558) err=( -0.000003 0.000023 0.000464) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.6066e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.5919e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.4066e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[14,1]" ********************************************************* Generating perturbed configuration with delta-fuse[14,1]= 0.01390000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.5459e-09) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.2549e-07) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.3814e-08) ********************************************************* Starting tessellation sensitivity wrt "fuse[14,2]" ********************************************************* Generating perturbed configuration with delta-fuse[14,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.123856 0.265606 0.013615) ibeg = 37 ( 0.123848 0.265594 0.013919) err=( -0.000008 -0.000012 0.000304) WARNING:: dxyz mismatch: inode= 18 ( 0.123913 -0.265729 0.014034) iend = 49 ( 0.123914 -0.265735 0.013927) err=( 0.000001 -0.000005 -0.000107) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 7.0227e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.7766e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 6.9857e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[14,3]" ********************************************************* Generating perturbed configuration with delta-fuse[14,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.024128 0.051714 0.000376) iend = 12 ( 0.024128 0.051713 0.000376) err=( -0.000000 -0.000001 0.000000) WARNING:: dxyz mismatch: inode= 10 ( 0.024128 0.051714 0.000376) ibeg = 37 ( 0.024070 0.051618 0.002705) err=( -0.000057 -0.000095 0.002330) WARNING:: dxyz mismatch: inode= 11 ( -0.014469 -0.095054 -0.003693) ibeg = 35 ( -0.014469 -0.095054 -0.003690) err=( -0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 12 ( -0.014989 -0.098481 -0.003865) ibeg = 39 ( -0.014989 -0.098481 -0.003862) err=( -0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 17 ( -0.014469 0.095054 -0.003692) iend = 48 ( -0.014469 0.095054 -0.003690) err=( -0.000000 0.000000 0.000002) WARNING:: dxyz mismatch: inode= 18 ( 0.024568 -0.052658 0.003584) iend = 49 ( 0.024574 -0.052699 0.002762) err=( 0.000006 -0.000040 -0.000822) WARNING:: dxyz mismatch: inode= 19 ( -0.014989 0.098481 -0.003865) iend = 51 ( -0.014989 0.098481 -0.003862) err=( -0.000000 0.000000 0.000002) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.2095e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.9137e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.4621e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[14,4]" ********************************************************* Generating perturbed configuration with delta-fuse[14,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.013474 0.028880 0.000210) ibeg = 37 ( 0.013442 0.028826 0.001511) err=( -0.000032 -0.000053 0.001301) WARNING:: dxyz mismatch: inode= 11 ( -0.007922 -0.052044 -0.002022) ibeg = 35 ( -0.007922 -0.052044 -0.002020) err=( -0.000000 -0.000000 0.000001) WARNING:: dxyz mismatch: inode= 12 ( -0.008076 -0.053063 -0.002082) ibeg = 39 ( -0.008076 -0.053063 -0.002081) err=( -0.000000 -0.000000 0.000001) WARNING:: dxyz mismatch: inode= 17 ( -0.007922 0.052044 -0.002022) iend = 48 ( -0.007922 0.052044 -0.002020) err=( -0.000000 0.000000 0.000001) WARNING:: dxyz mismatch: inode= 18 ( 0.013720 -0.029407 0.002001) iend = 49 ( 0.013723 -0.029430 0.001542) err=( 0.000003 -0.000023 -0.000459) WARNING:: dxyz mismatch: inode= 19 ( -0.008076 0.053063 -0.002082) iend = 51 ( -0.008076 0.053063 -0.002081) err=( -0.000000 0.000000 0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.6909e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.6197e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.3897e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[15,1]" ********************************************************* Generating perturbed configuration with delta-fuse[15,1]= 0.01400000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.000003 -0.000007 0.000007) ibeg = 37 ( -0.000003 -0.000006 -0.000000) err=( 0.000000 0.000000 -0.000007) WARNING:: dxyz mismatch: inode= 18 ( -0.000004 0.000009 -0.000003) iend = 49 ( -0.000004 0.000009 -0.000000) err=( -0.000000 0.000000 0.000002) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 1.4034e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 3.7643e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.0189e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[15,2]" ********************************************************* Generating perturbed configuration with delta-fuse[15,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.091619 -0.196476 -0.010071) ibeg = 37 ( -0.091614 -0.196467 -0.010296) err=( 0.000006 0.000009 -0.000225) WARNING:: dxyz mismatch: inode= 18 ( -0.091662 0.196567 -0.010381) iend = 49 ( -0.091663 0.196571 -0.010302) err=( -0.000001 0.000004 0.000079) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.7188e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.6805e-05) d(Node)/d(fuse) check complete with 0 total errors (errmax= 7.8712e-07) ********************************************************* Starting tessellation sensitivity wrt "fuse[15,3]" ********************************************************* Generating perturbed configuration with delta-fuse[15,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( -0.017848 -0.038254 -0.000278) ibeg = 37 ( -0.017805 -0.038184 -0.002001) err=( 0.000043 0.000070 -0.001723) WARNING:: dxyz mismatch: inode= 11 ( -0.016009 -0.105168 -0.004086) ibeg = 35 ( -0.016009 -0.105168 -0.004083) err=( -0.000000 -0.000000 0.000003) WARNING:: dxyz mismatch: inode= 12 ( -0.016510 -0.108476 -0.004257) ibeg = 39 ( -0.016510 -0.108476 -0.004254) err=( -0.000000 -0.000000 0.000003) WARNING:: dxyz mismatch: inode= 17 ( -0.016009 0.105168 -0.004085) iend = 48 ( -0.016009 0.105168 -0.004083) err=( -0.000000 0.000000 0.000002) WARNING:: dxyz mismatch: inode= 18 ( -0.018174 0.038953 -0.002651) iend = 49 ( -0.018178 0.038983 -0.002043) err=( -0.000004 0.000030 0.000608) WARNING:: dxyz mismatch: inode= 19 ( -0.016510 0.108476 -0.004257) iend = 51 ( -0.016510 0.108476 -0.004254) err=( -0.000000 0.000000 0.000003) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 3.2145e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 2.0369e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 1.8603e-06) ********************************************************* Starting tessellation sensitivity wrt "fuse[15,4]" ********************************************************* Generating perturbed configuration with delta-fuse[15,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.000469 0.000181 0.000366) ibeg = 31 ( 0.000476 0.000159 -0.000000) err=( 0.000007 -0.000022 -0.000366) WARNING:: dxyz mismatch: inode= 10 ( -0.009967 -0.021363 -0.000155) ibeg = 37 ( -0.009943 -0.021323 -0.001118) err=( 0.000024 0.000039 -0.000962) WARNING:: dxyz mismatch: inode= 11 ( -0.008765 -0.057579 -0.002237) ibeg = 35 ( -0.008765 -0.057579 -0.002235) err=( -0.000000 -0.000000 0.000001) WARNING:: dxyz mismatch: inode= 12 ( -0.008896 -0.058445 -0.002294) ibeg = 39 ( -0.008896 -0.058445 -0.002292) err=( -0.000000 -0.000000 0.000001) WARNING:: dxyz mismatch: inode= 15 ( 0.000463 -0.000179 0.000361) iend = 43 ( 0.000471 -0.000157 -0.000000) err=( 0.000007 0.000022 -0.000361) WARNING:: dxyz mismatch: inode= 17 ( -0.008765 0.057579 -0.002237) iend = 48 ( -0.008765 0.057579 -0.002235) err=( -0.000000 0.000000 0.000001) WARNING:: dxyz mismatch: inode= 18 ( -0.010149 0.021753 -0.001480) iend = 49 ( -0.010151 0.021770 -0.001141) err=( -0.000002 0.000017 0.000340) WARNING:: dxyz mismatch: inode= 19 ( -0.008896 0.058445 -0.002294) iend = 51 ( -0.008896 0.058445 -0.002292) err=( -0.000000 0.000000 0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(fuse) check complete with 0 total errors (errmax= 5.4725e-07) d(Edge)/d(fuse) check complete with 0 total errors (errmax= 1.1419e-04) d(Node)/d(fuse) check complete with 0 total errors (errmax= 2.4338e-06) ********************************************************* Starting tessellation sensitivity wrt "wing[1,1]" ********************************************************* Generating perturbed configuration with delta-wing[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.458781 -0.002186 -0.000001) ibeg = 31 ( 0.458781 -0.002186 0.000000) err=( -0.000000 0.000000 0.000001) WARNING:: dxyz mismatch: inode= 8 ( 0.715548 -0.035391 0.000097) ibeg = 29 ( 0.715549 -0.035391 0.000099) err=( 0.000000 0.000000 0.000003) WARNING:: dxyz mismatch: inode= 9 ( 0.718869 -0.035420 -0.000104) ibeg = 33 ( 0.718870 -0.035420 -0.000100) err=( 0.000001 -0.000000 0.000004) WARNING:: dxyz mismatch: inode= 14 ( 0.715548 0.035391 0.000095) iend = 42 ( 0.715549 0.035391 0.000099) err=( 0.000001 -0.000000 0.000004) WARNING:: dxyz mismatch: inode= 15 ( 0.458775 0.002189 -0.000007) iend = 43 ( 0.458775 0.002188 0.000000) err=( -0.000000 -0.000000 0.000007) WARNING:: dxyz mismatch: inode= 16 ( 0.718870 0.035420 -0.000103) iend = 45 ( 0.718870 0.035420 -0.000100) err=( 0.000000 0.000000 0.000003) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.5347e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.4623e-05) d(Node)/d(wing) check complete with 0 total errors (errmax= 8.8949e-07) ********************************************************* Starting tessellation sensitivity wrt "wing[1,2]" ********************************************************* Generating perturbed configuration with delta-wing[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -1.375816 0.006794 0.000489) ibeg = 31 ( -1.375798 0.006740 0.000000) err=( 0.000018 -0.000053 -0.000489) WARNING:: dxyz mismatch: inode= 8 ( 0.000264 0.000650 0.001983) ibeg = 29 ( 0.000268 0.000650 0.002009) err=( 0.000003 0.000000 0.000026) WARNING:: dxyz mismatch: inode= 9 ( -0.000274 -0.000752 -0.002053) ibeg = 33 ( -0.000270 -0.000752 -0.002022) err=( 0.000004 -0.000000 0.000030) WARNING:: dxyz mismatch: inode= 14 ( -0.000262 0.000644 -0.001965) iend = 42 ( -0.000268 0.000644 -0.002009) err=( -0.000006 0.000000 -0.000044) WARNING:: dxyz mismatch: inode= 15 ( 1.370658 0.008785 -0.004643) ibeg = 20 ( 1.370658 0.008784 -0.004644) err=( 0.000000 -0.000001 -0.000001) WARNING:: dxyz mismatch: inode= 15 ( 1.370658 0.008785 -0.004643) iend = 43 ( 1.370558 0.008487 -0.000000) err=( -0.000100 -0.000299 0.004643) WARNING:: dxyz mismatch: inode= 16 ( 0.000273 -0.000749 0.002045) iend = 45 ( 0.000270 -0.000749 0.002022) err=( -0.000003 -0.000000 -0.000022) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 3.7357e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.3463e-04) d(Node)/d(wing) check complete with 0 total errors (errmax= 6.7859e-06) ********************************************************* Starting tessellation sensitivity wrt "wing[1,3]" ********************************************************* Generating perturbed configuration with delta-wing[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.667370 0.222387 0.464767) ibeg = 31 ( 0.667349 0.222450 0.465340) err=( -0.000021 0.000063 0.000573) WARNING:: dxyz mismatch: inode= 8 ( -0.000080 0.239070 0.714934) ibeg = 29 ( -0.000090 0.239069 0.714864) err=( -0.000009 -0.000000 -0.000070) WARNING:: dxyz mismatch: inode= 9 ( 0.000105 0.268268 0.719670) ibeg = 33 ( 0.000101 0.268269 0.719637) err=( -0.000004 0.000000 -0.000032) WARNING:: dxyz mismatch: inode= 14 ( -0.000074 -0.239085 0.714982) iend = 42 ( -0.000090 -0.239085 0.714864) err=( -0.000016 0.000000 -0.000118) WARNING:: dxyz mismatch: inode= 15 ( 0.661313 -0.220048 0.459890) ibeg = 20 ( 0.661313 -0.220050 0.459889) err=( 0.000000 -0.000001 -0.000001) WARNING:: dxyz mismatch: inode= 15 ( 0.661313 -0.220048 0.459890) iend = 43 ( 0.661197 -0.220399 0.465340) err=( -0.000117 -0.000350 0.005450) WARNING:: dxyz mismatch: inode= 16 ( 0.000104 -0.268265 0.719661) iend = 45 ( 0.000101 -0.268265 0.719637) err=( -0.000003 -0.000000 -0.000024) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 2.0037e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 4.1142e-04) d(Node)/d(wing) check complete with 0 total errors (errmax= 8.1462e-06) ********************************************************* Starting tessellation sensitivity wrt "wing[1,4]" ********************************************************* Generating perturbed configuration with delta-wing[1,4]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 8 ( 0.715638 -0.035171 0.000767) ibeg = 29 ( 0.715638 -0.035171 0.000769) err=( 0.000000 0.000000 0.000002) WARNING:: dxyz mismatch: inode= 9 ( 0.718780 -0.035667 -0.000778) ibeg = 33 ( 0.718780 -0.035667 -0.000774) err=( 0.000001 -0.000000 0.000004) WARNING:: dxyz mismatch: inode= 14 ( 0.715637 0.035172 0.000765) iend = 42 ( 0.715638 0.035172 0.000769) err=( 0.000001 -0.000000 0.000004) WARNING:: dxyz mismatch: inode= 16 ( 0.718780 0.035666 -0.000777) iend = 45 ( 0.718780 0.035666 -0.000774) err=( 0.000000 0.000000 0.000003) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.2673e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 2.3238e-05) d(Node)/d(wing) check complete with 0 total errors (errmax= 1.9998e-06) ********************************************************* Starting tessellation sensitivity wrt "wing[1,5]" ********************************************************* Generating perturbed configuration with delta-wing[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 8 ( 0.000079 -0.025042 -0.074877) ibeg = 29 ( 0.000080 -0.025042 -0.074870) err=( 0.000001 0.000000 0.000007) WARNING:: dxyz mismatch: inode= 9 ( -0.000081 -0.028086 -0.075354) ibeg = 33 ( -0.000081 -0.028086 -0.075351) err=( 0.000000 -0.000000 0.000003) WARNING:: dxyz mismatch: inode= 14 ( 0.000078 0.025044 -0.074882) iend = 42 ( 0.000080 0.025043 -0.074870) err=( 0.000002 -0.000000 0.000012) WARNING:: dxyz mismatch: inode= 16 ( -0.000081 0.028086 -0.075353) iend = 45 ( -0.000081 0.028086 -0.075351) err=( 0.000000 0.000000 0.000003) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.4083e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 4.7567e-06) d(Node)/d(wing) check complete with 0 total errors (errmax= 1.2437e-08) ********************************************************* Starting tessellation sensitivity wrt "wing[2,1]" ********************************************************* Generating perturbed configuration with delta-wing[2,1]= 0.00700000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.527125 -0.002512 -0.000002) ibeg = 31 ( 0.527125 -0.002512 0.000000) err=( -0.000000 0.000000 0.000002) WARNING:: dxyz mismatch: inode= 8 ( 0.284470 -0.014070 0.000039) ibeg = 29 ( 0.284470 -0.014070 0.000040) err=( 0.000000 0.000000 0.000001) WARNING:: dxyz mismatch: inode= 9 ( 0.281111 -0.013851 -0.000041) ibeg = 33 ( 0.281112 -0.013851 -0.000039) err=( 0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 14 ( 0.284470 0.014070 0.000038) iend = 42 ( 0.284470 0.014070 0.000040) err=( 0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 15 ( 0.527118 0.002515 -0.000008) iend = 43 ( 0.527118 0.002514 0.000000) err=( -0.000000 -0.000001 0.000008) WARNING:: dxyz mismatch: inode= 16 ( 0.281111 0.013851 -0.000040) iend = 45 ( 0.281112 0.013851 -0.000039) err=( 0.000000 0.000000 0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 5.5432e-06) d(Edge)/d(wing) check complete with 0 total errors (errmax= 9.0182e-06) d(Node)/d(wing) check complete with 0 total errors (errmax= 7.8329e-07) ********************************************************* Starting tessellation sensitivity wrt "wing[2,2]" ********************************************************* Generating perturbed configuration with delta-wing[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( -1.580769 0.007806 0.000562) ibeg = 31 ( -1.580749 0.007744 0.000000) err=( 0.000020 -0.000061 -0.000562) WARNING:: dxyz mismatch: inode= 8 ( 0.000105 0.000258 0.000788) ibeg = 29 ( 0.000106 0.000258 0.000799) err=( 0.000001 0.000000 0.000010) WARNING:: dxyz mismatch: inode= 9 ( -0.000107 -0.000294 -0.000803) ibeg = 33 ( -0.000105 -0.000294 -0.000791) err=( 0.000002 -0.000000 0.000012) WARNING:: dxyz mismatch: inode= 14 ( 0.000104 -0.000256 0.000781) iend = 42 ( 0.000106 -0.000256 0.000799) err=( 0.000002 -0.000000 0.000017) WARNING:: dxyz mismatch: inode= 15 ( -1.574843 -0.010094 0.005335) ibeg = 20 ( -1.574843 -0.010093 0.005335) err=( -0.000000 0.000001 0.000001) WARNING:: dxyz mismatch: inode= 15 ( -1.574843 -0.010094 0.005335) iend = 43 ( -1.574728 -0.009751 0.000000) err=( 0.000114 0.000343 -0.005335) WARNING:: dxyz mismatch: inode= 16 ( -0.000107 0.000293 -0.000800) iend = 45 ( -0.000105 0.000293 -0.000791) err=( 0.000001 0.000000 0.000009) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.4885e-06) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.7141e-04) d(Node)/d(wing) check complete with 0 total errors (errmax= 7.6709e-06) ********************************************************* Starting tessellation sensitivity wrt "wing[2,3]" ********************************************************* Generating perturbed configuration with delta-wing[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 7 ( 0.766787 0.255516 0.534002) ibeg = 31 ( 0.766763 0.255588 0.534660) err=( -0.000024 0.000072 0.000658) WARNING:: dxyz mismatch: inode= 8 ( -0.000032 0.095043 0.284225) ibeg = 29 ( -0.000036 0.095043 0.284197) err=( -0.000004 -0.000000 -0.000028) WARNING:: dxyz mismatch: inode= 9 ( 0.000041 0.104905 0.281424) ibeg = 33 ( 0.000039 0.104905 0.281412) err=( -0.000002 0.000000 -0.000013) WARNING:: dxyz mismatch: inode= 14 ( -0.000029 -0.095049 0.284244) iend = 42 ( -0.000036 -0.095049 0.284197) err=( -0.000006 0.000000 -0.000047) WARNING:: dxyz mismatch: inode= 15 ( 0.759828 -0.252829 0.528399) ibeg = 20 ( 0.759828 -0.252830 0.528398) err=( 0.000000 -0.000002 -0.000001) WARNING:: dxyz mismatch: inode= 15 ( 0.759828 -0.252829 0.528399) iend = 43 ( 0.759694 -0.253231 0.534660) err=( -0.000134 -0.000403 0.006261) WARNING:: dxyz mismatch: inode= 16 ( 0.000041 -0.104904 0.281421) iend = 45 ( 0.000039 -0.104904 0.281412) err=( -0.000001 -0.000000 -0.000009) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 4.7349e-07) d(Edge)/d(wing) check complete with 0 total errors (errmax= 4.6417e-04) d(Node)/d(wing) check complete with 0 total errors (errmax= 1.0201e-05) ********************************************************* Starting tessellation sensitivity wrt "wing[2,4]" ********************************************************* Generating perturbed configuration with delta-wing[2,4]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 9 ( 0.281076 -0.013947 -0.000304) ibeg = 33 ( 0.281076 -0.013947 -0.000303) err=( 0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 14 ( 0.284505 0.013983 0.000304) iend = 42 ( 0.284505 0.013983 0.000306) err=( 0.000000 -0.000000 0.000002) WARNING:: dxyz mismatch: inode= 16 ( 0.281076 0.013947 -0.000304) iend = 45 ( 0.281076 0.013947 -0.000303) err=( 0.000000 0.000000 0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 2.0528e-08) d(Edge)/d(wing) check complete with 0 total errors (errmax= 4.5410e-06) d(Node)/d(wing) check complete with 0 total errors (errmax= 1.4361e-07) ********************************************************* Starting tessellation sensitivity wrt "wing[2,5]" ********************************************************* Generating perturbed configuration with delta-wing[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 8 ( 0.000016 -0.004978 -0.014884) ibeg = 29 ( 0.000016 -0.004978 -0.014882) err=( 0.000000 0.000000 0.000001) WARNING:: dxyz mismatch: inode= 14 ( 0.000015 0.004978 -0.014885) iend = 42 ( 0.000016 0.004978 -0.014882) err=( 0.000000 -0.000000 0.000002) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.4028e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 9.4566e-07) d(Node)/d(wing) check complete with 0 total errors (errmax= 2.7623e-09) ********************************************************* Starting tessellation sensitivity wrt "wing[3,1]" ********************************************************* Generating perturbed configuration with delta-wing[3,1]= 0.00900000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.3527e-15) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.5888e-15) d(Node)/d(wing) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "wing[3,2]" ********************************************************* Generating perturbed configuration with delta-wing[3,2]= 0.00460000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 4.6323e-16) d(Edge)/d(wing) check complete with 0 total errors (errmax= 6.2804e-16) d(Node)/d(wing) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "wing[3,3]" ********************************************************* Generating perturbed configuration with delta-wing[3,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 1.2588e-16) d(Edge)/d(wing) check complete with 0 total errors (errmax= 1.7974e-17) d(Node)/d(wing) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "wing[3,4]" ********************************************************* Generating perturbed configuration with delta-wing[3,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 4.0043e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 6.0307e-09) d(Node)/d(wing) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "wing[3,5]" ********************************************************* Generating perturbed configuration with delta-wing[3,5]= 0.02000000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(wing) check complete with 0 total errors (errmax= 3.5325e-09) d(Edge)/d(wing) check complete with 0 total errors (errmax= 3.4604e-08) d(Node)/d(wing) check complete with 0 total errors (errmax= 6.0931e-08) ********************************************************* Starting tessellation sensitivity wrt "xroot_h" ********************************************************* Generating perturbed configuration with delta-xroot_h[1,1]= 0.01210000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.999491 -0.001091 -0.000063) ibeg = 37 ( 0.999491 -0.001092 -0.000057) err=( -0.000000 -0.000000 0.000005) WARNING:: dxyz mismatch: inode= 18 ( 0.999492 0.001089 -0.000056) iend = 49 ( 0.999492 0.001089 -0.000057) err=( 0.000000 -0.000000 -0.000001) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(xroot_h) check complete with 0 total errors (errmax= 3.3728e-04) d(Edge)/d(xroot_h) check complete with 0 total errors (errmax= 1.3473e-05) d(Node)/d(xroot_h) check complete with 0 total errors (errmax= 7.3841e-07) ********************************************************* Starting tessellation sensitivity wrt "zroot_h" ********************************************************* Generating perturbed configuration with delta-zroot_h[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.137779 0.295308 1.002144) iend = 12 ( 0.137779 0.295302 1.002146) err=( -0.000000 -0.000006 0.000002) WARNING:: dxyz mismatch: inode= 10 ( 0.137779 0.295308 1.002144) ibeg = 37 ( 0.137451 0.294764 1.015448) err=( -0.000328 -0.000544 0.013304) WARNING:: dxyz mismatch: inode= 11 ( 0.047099 0.309411 1.012020) ibeg = 35 ( 0.047099 0.309411 1.012012) err=( 0.000000 0.000000 -0.000008) WARNING:: dxyz mismatch: inode= 12 ( 0.048403 0.318018 1.012480) ibeg = 39 ( 0.048403 0.318019 1.012472) err=( 0.000000 0.000000 -0.000008) WARNING:: dxyz mismatch: inode= 17 ( 0.047099 -0.309411 1.012019) iend = 48 ( 0.047099 -0.309411 1.012012) err=( 0.000000 -0.000000 -0.000007) WARNING:: dxyz mismatch: inode= 18 ( 0.140296 -0.300703 1.020465) iend = 49 ( 0.140328 -0.300934 1.015771) err=( 0.000032 -0.000231 -0.004694) WARNING:: dxyz mismatch: inode= 19 ( 0.048403 -0.318018 1.012480) iend = 51 ( 0.048403 -0.318019 1.012472) err=( 0.000000 -0.000000 -0.000008) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(zroot_h) check complete with 0 total errors (errmax= 1.9217e-05) d(Edge)/d(zroot_h) check complete with 0 total errors (errmax= 1.6881e-03) d(Node)/d(zroot_h) check complete with 0 total errors (errmax= 1.3617e-05) ********************************************************* Starting tessellation sensitivity wrt "aroot_h" ********************************************************* Generating perturbed configuration with delta-aroot_h[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(aroot_h) check complete with 0 total errors (errmax= 2.6781e-10) d(Edge)/d(aroot_h) check complete with 0 total errors (errmax= 4.6325e-07) d(Node)/d(aroot_h) check complete with 0 total errors (errmax= 1.8111e-09) ********************************************************* Starting tessellation sensitivity wrt "area_h" ********************************************************* Generating perturbed configuration with delta-area_h[1,1]= 0.00728000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(area_h) check complete with 0 total errors (errmax= 1.0662e-08) d(Edge)/d(area_h) check complete with 0 total errors (errmax= 7.0978e-07) d(Node)/d(area_h) check complete with 0 total errors (errmax= 4.2564e-07) ********************************************************* Starting tessellation sensitivity wrt "taper_h" ********************************************************* Generating perturbed configuration with delta-taper_h[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(taper_h) check complete with 0 total errors (errmax= 1.8818e-08) d(Edge)/d(taper_h) check complete with 0 total errors (errmax= 8.6335e-07) d(Node)/d(taper_h) check complete with 0 total errors (errmax= 7.5287e-07) ********************************************************* Starting tessellation sensitivity wrt "aspect_h" ********************************************************* Generating perturbed configuration with delta-aspect_h[1,1]= 0.00370000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(aspect_h) check complete with 0 total errors (errmax= 2.2347e-08) d(Edge)/d(aspect_h) check complete with 0 total errors (errmax= 7.3264e-07) d(Node)/d(aspect_h) check complete with 0 total errors (errmax= 5.8863e-07) ********************************************************* Starting tessellation sensitivity wrt "sweep_h" ********************************************************* Generating perturbed configuration with delta-sweep_h[1,1]= 0.02500000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(sweep_h) check complete with 0 total errors (errmax= 1.1173e-06) d(Edge)/d(sweep_h) check complete with 0 total errors (errmax= 1.6593e-07) d(Node)/d(sweep_h) check complete with 0 total errors (errmax= 2.8062e-07) ********************************************************* Starting tessellation sensitivity wrt "dihed_h" ********************************************************* Generating perturbed configuration with delta-dihed_h[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 10 ( 0.000693 0.001484 0.005037) ibeg = 37 ( 0.000691 0.001482 0.005104) err=( -0.000002 -0.000003 0.000067) WARNING:: dxyz mismatch: inode= 18 ( 0.000705 -0.001511 0.005129) iend = 49 ( 0.000705 -0.001513 0.005105) err=( 0.000000 -0.000001 -0.000024) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(dihed_h) check complete with 0 total errors (errmax= 4.4260e-09) d(Edge)/d(dihed_h) check complete with 0 total errors (errmax= 2.4262e-05) d(Node)/d(dihed_h) check complete with 0 total errors (errmax= 2.1466e-07) ********************************************************* Starting tessellation sensitivity wrt "twist_h" ********************************************************* Generating perturbed configuration with delta-twist_h[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(twist_h) check complete with 0 total errors (errmax= 1.4068e-09) d(Edge)/d(twist_h) check complete with 0 total errors (errmax= 5.9145e-08) d(Node)/d(twist_h) check complete with 0 total errors (errmax= 6.0647e-10) ********************************************************* Starting tessellation sensitivity wrt "xroot_v" ********************************************************* Generating perturbed configuration with delta-xroot_v[1,1]= 0.01120000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(xroot_v) check complete with 0 total errors (errmax= 3.5377e-05) d(Edge)/d(xroot_v) check complete with 0 total errors (errmax= 3.7252e-04) d(Node)/d(xroot_v) check complete with 0 total errors (errmax= 7.1800e-07) ********************************************************* Starting tessellation sensitivity wrt "zroot_v" ********************************************************* Generating perturbed configuration with delta-zroot_v[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(zroot_v) check complete with 0 total errors (errmax= 2.0894e-07) d(Edge)/d(zroot_v) check complete with 0 total errors (errmax= 3.3198e-05) d(Node)/d(zroot_v) check complete with 0 total errors (errmax= 5.7926e-09) ********************************************************* Starting tessellation sensitivity wrt "area_v" ********************************************************* Generating perturbed configuration with delta-area_v[1,1]= 0.00960000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(area_v) check complete with 0 total errors (errmax= 1.0207e-08) d(Edge)/d(area_v) check complete with 0 total errors (errmax= 7.4899e-07) d(Node)/d(area_v) check complete with 0 total errors (errmax= 5.5188e-07) ********************************************************* Starting tessellation sensitivity wrt "taper_v" ********************************************************* Generating perturbed configuration with delta-taper_v[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=84 WARNING:: dxyz mismatch: inode= 5 ( -1.959197 -0.000821 0.000010) ibeg = 26 ( -1.959197 -0.000823 0.000010) err=( -0.000000 -0.000001 -0.000000) WARNING:: dxyz mismatch: inode= 13 ( -1.959197 0.000822 0.000010) ibeg = 24 ( -1.959197 0.000823 0.000010) err=( -0.000000 0.000001 -0.000000) Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(taper_v) check complete with 0 total errors (errmax= 2.5809e-08) d(Edge)/d(taper_v) check complete with 0 total errors (errmax= 1.0642e-06) d(Node)/d(taper_v) check complete with 0 total errors (errmax= 1.6272e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect_v" ********************************************************* Generating perturbed configuration with delta-aspect_v[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(aspect_v) check complete with 0 total errors (errmax= 1.7978e-08) d(Edge)/d(aspect_v) check complete with 0 total errors (errmax= 7.0869e-07) d(Node)/d(aspect_v) check complete with 0 total errors (errmax= 9.5948e-07) ********************************************************* Starting tessellation sensitivity wrt "sweep_v" ********************************************************* Generating perturbed configuration with delta-sweep_v[1,1]= 0.04500000 Computing analytic sensitivities (if possible) for ibody=84 Computing distances of perturbed points from perturbed configuration for ibody=84 d(Face)/d(sweep_v) check complete with 0 total errors (errmax= 4.7960e-07) d(Edge)/d(sweep_v) check complete with 0 total errors (errmax= 5.1833e-06) d(Node)/d(sweep_v) check complete with 0 total errors (errmax= 3.3138e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 65.622 sec Sensitivity checks complete with 59 total errors (max tess err= 7.1433e-02) with 0 suppressions real 12m45.192s user 23m37.589s sys 7m4.281s ++ set +x -------------------------------------------------------------------------------------------------- ( 44 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designA.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "aa[1,1]" ********************************************************* Generating perturbed configuration with delta-aa[1,1]= 0.01100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "aa[1,2]" ********************************************************* Generating perturbed configuration with delta-aa[1,2]= 0.01200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "aa[1,3]" ********************************************************* Generating perturbed configuration with delta-aa[1,3]= 0.01300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "aa[2,1]" ********************************************************* Generating perturbed configuration with delta-aa[2,1]= 0.02100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "aa[2,2]" ********************************************************* Generating perturbed configuration with delta-aa[2,2]= 0.02200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "aa[2,3]" ********************************************************* Generating perturbed configuration with delta-aa[2,3]= 0.02300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.005 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m0.703s user 0m0.252s sys 0m0.361s ++ set +x -------------------------------------------------------------------------------------------------- ( 45 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.1773e-07) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(DY) check complete with 0 total errors (errmax= 2.3077e-07) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "move" ********************************************************* Generating perturbed configuration with delta-move[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.1870e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.271 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9394e-06) with 0 suppressions real 0m8.063s user 0m6.310s sys 0m0.627s ++ set +x -------------------------------------------------------------------------------------------------- ( 46 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.1773e-07) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(DY) check complete with 0 total errors (errmax= 2.3077e-07) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.2187e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.2504e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "move" ********************************************************* Generating perturbed configuration with delta-move[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.1870e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.398 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9394e-06) with 0 suppressions real 0m7.562s user 0m6.683s sys 0m0.706s ++ set +x -------------------------------------------------------------------------------------------------- ( 47 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=37 Computing distances of perturbed points from perturbed configuration for ibody=37 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.1773e-07) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=37 Computing distances of perturbed points from perturbed configuration for ibody=37 d(Face)/d(DY) check complete with 0 total errors (errmax= 2.3077e-07) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=37 Computing distances of perturbed points from perturbed configuration for ibody=37 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.2188e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.2504e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "move" ********************************************************* Generating perturbed configuration with delta-move[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=37 Computing distances of perturbed points from perturbed configuration for ibody=37 d(Face)/d(move) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=37 Computing distances of perturbed points from perturbed configuration for ibody=37 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.1870e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.368 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9394e-06) with 0 suppressions real 0m6.094s user 0m6.356s sys 0m0.670s ++ set +x -------------------------------------------------------------------------------------------------- ( 48 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=25 Computing distances of perturbed points from perturbed configuration for ibody=25 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.1773e-07) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 Computing distances of perturbed points from perturbed configuration for ibody=25 d(Face)/d(DY) check complete with 0 total errors (errmax= 2.3077e-07) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=25 Computing distances of perturbed points from perturbed configuration for ibody=25 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.7481e-13) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.1096e-12) d(Node)/d(DZ) check complete with 0 total errors (errmax= 9.9920e-16) ********************************************************* Starting tessellation sensitivity wrt "move" ********************************************************* Generating perturbed configuration with delta-move[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 Computing distances of perturbed points from perturbed configuration for ibody=25 d(Face)/d(move) check complete with 0 total errors (errmax= 1.9382e-16) d(Edge)/d(move) check complete with 0 total errors (errmax= 7.8505e-16) d(Node)/d(move) check complete with 0 total errors (errmax= 3.3307e-16) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 Computing distances of perturbed points from perturbed configuration for ibody=25 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.1870e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.078 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9394e-06) with 0 suppressions real 0m12.777s user 0m13.418s sys 0m0.805s ++ set +x -------------------------------------------------------------------------------------------------- ( 49 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designB5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(DX) check complete with 0 total errors (errmax= 3.6382e-07) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) d(Node)/d(DX) check complete with 0 total errors (errmax= 1.1014e-06) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(DY) check complete with 0 total errors (errmax= 2.3077e-07) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) d(Node)/d(DY) check complete with 0 total errors (errmax= 8.6318e-07) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(DZ) check complete with 0 total errors (errmax= 4.9259e-13) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.3354e-12) d(Node)/d(DZ) check complete with 0 total errors (errmax= 4.9651e-16) ********************************************************* Starting tessellation sensitivity wrt "move" ********************************************************* Generating perturbed configuration with delta-move[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(move) check complete with 0 total errors (errmax= 1.8704e-16) d(Edge)/d(move) check complete with 0 total errors (errmax= 6.1815e-16) d(Node)/d(move) check complete with 0 total errors (errmax= 3.3307e-16) ********************************************************* Starting tessellation sensitivity wrt "bump" ********************************************************* Generating perturbed configuration with delta-bump[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(bump) check complete with 0 total errors (errmax= 1.6698e-07) d(Edge)/d(bump) check complete with 0 total errors (errmax= 5.6956e-07) d(Node)/d(bump) check complete with 0 total errors (errmax= 8.6318e-07) ********************************************************* Starting tessellation sensitivity wrt "rotn" ********************************************************* Generating perturbed configuration with delta-rotn[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(rotn) check complete with 0 total errors (errmax= 3.2012e-10) d(Edge)/d(rotn) check complete with 0 total errors (errmax= 4.9313e-10) d(Node)/d(rotn) check complete with 0 total errors (errmax= 7.0070e-10) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=34 Computing distances of perturbed points from perturbed configuration for ibody=34 d(Face)/d(rad) check complete with 0 total errors (errmax= 5.1870e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.030 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9394e-06) with 0 suppressions real 0m22.350s user 0m22.140s sys 0m1.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 50 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 3.1157e-19) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 3.1157e-19) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.4607e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.4607e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(xsize) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ysize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(ysize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.011 sec Sensitivity checks complete with 0 total errors (max tess err= 4.4410e-16) with 0 suppressions real 0m0.265s user 0m0.173s sys 0m0.094s ++ set +x -------------------------------------------------------------------------------------------------- ( 51 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.7557e-16) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 1.0033e-19) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 2.7921e-16) d(Edge)/d(xend) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(xend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yend" ********************************************************* Generating perturbed configuration with delta-yend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yend) check complete with 0 total errors (errmax= 7.6540e-24) ********************************************************* Starting tessellation sensitivity wrt "zend" ********************************************************* Generating perturbed configuration with delta-zend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.6534e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.7259e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.1015e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.565s user 0m0.397s sys 0m0.146s ++ set +x -------------------------------------------------------------------------------------------------- ( 52 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 7.6540e-24) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 8.0573e-20) d(Edge)/d(xend) check complete with 0 total errors (errmax= 4.2257e-19) d(Node)/d(xend) check complete with 0 total errors (errmax= 7.3479e-19) ********************************************************* Starting tessellation sensitivity wrt "yend" ********************************************************* Generating perturbed configuration with delta-yend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yend) check complete with 0 total errors (errmax= 1.0033e-19) ********************************************************* Starting tessellation sensitivity wrt "zend" ********************************************************* Generating perturbed configuration with delta-zend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.6534e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.7259e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.1016e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.012 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.447s user 0m0.379s sys 0m0.106s ++ set +x -------------------------------------------------------------------------------------------------- ( 53 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC2a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 2.7557e-16) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yend" ********************************************************* Generating perturbed configuration with delta-yend[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 2.7921e-16) d(Edge)/d(yend) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(yend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zend" ********************************************************* Generating perturbed configuration with delta-zend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.5242e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.7041e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.534s user 0m0.389s sys 0m0.125s ++ set +x -------------------------------------------------------------------------------------------------- ( 54 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC2b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yend" ********************************************************* Generating perturbed configuration with delta-yend[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 7.5896e-20) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.3197e-19) d(Node)/d(yend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zend" ********************************************************* Generating perturbed configuration with delta-zend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(zend) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.5242e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.7041e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.013 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.480s user 0m0.341s sys 0m0.117s ++ set +x -------------------------------------------------------------------------------------------------- ( 55 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC3a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.7557e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(xend) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "yend" ********************************************************* Generating perturbed configuration with delta-yend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zend" ********************************************************* Generating perturbed configuration with delta-zend[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 2.7921e-16) d(Edge)/d(zend) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(zend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.5242e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.7041e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.014 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.585s user 0m0.363s sys 0m0.171s ++ set +x -------------------------------------------------------------------------------------------------- ( 56 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC3b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "xend" ********************************************************* Generating perturbed configuration with delta-xend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xend) check complete with 0 total errors (errmax= 1.8634e-08) d(Edge)/d(xend) check complete with 0 total errors (errmax= 3.1250e-08) d(Node)/d(xend) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "yend" ********************************************************* Generating perturbed configuration with delta-yend[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yend) check complete with 0 total errors (errmax= 1.9458e-08) d(Edge)/d(yend) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zend" ********************************************************* Generating perturbed configuration with delta-zend[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zend) check complete with 0 total errors (errmax= 7.5896e-20) d(Edge)/d(zend) check complete with 0 total errors (errmax= 1.3197e-19) d(Node)/d(zend) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.5242e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.7041e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.014 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.552s user 0m0.368s sys 0m0.125s ++ set +x -------------------------------------------------------------------------------------------------- ( 57 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC4a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xvrtx" ********************************************************* Generating perturbed configuration with delta-xvrtx[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 3.6666e-16) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 3.9653e-16) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yvrtx" ********************************************************* Generating perturbed configuration with delta-yvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zvrtx" ********************************************************* Generating perturbed configuration with delta-zvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 3.7230e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.2854e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zbase) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 8.9056e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 9.0166e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 9.9301e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.720s user 0m0.302s sys 0m0.101s ++ set +x -------------------------------------------------------------------------------------------------- ( 58 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC4b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xvrtx" ********************************************************* Generating perturbed configuration with delta-xvrtx[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 2.7101e-16) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 2.8246e-16) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 7.3479e-19) ********************************************************* Starting tessellation sensitivity wrt "yvrtx" ********************************************************* Generating perturbed configuration with delta-yvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zvrtx" ********************************************************* Generating perturbed configuration with delta-zvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 2.5612e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 2.3657e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 2.4493e-19) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zbase) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 8.9021e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 9.0298e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 8.9520e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.502s user 0m0.284s sys 0m0.105s ++ set +x -------------------------------------------------------------------------------------------------- ( 59 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC5a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xvrtx" ********************************************************* Generating perturbed configuration with delta-xvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "yvrtx" ********************************************************* Generating perturbed configuration with delta-yvrtx[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 3.6892e-16) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 3.9197e-16) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zvrtx" ********************************************************* Generating perturbed configuration with delta-zvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.7527e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 3.1323e-16) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zbase) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 8.9008e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 9.0846e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 9.1551e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.017 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.480s user 0m0.323s sys 0m0.130s ++ set +x -------------------------------------------------------------------------------------------------- ( 60 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC5b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xvrtx" ********************************************************* Generating perturbed configuration with delta-xvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "yvrtx" ********************************************************* Generating perturbed configuration with delta-yvrtx[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 2.7239e-16) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 2.8421e-16) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zvrtx" ********************************************************* Generating perturbed configuration with delta-zvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(xbase) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.5119e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.3142e-16) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(zbase) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 8.9008e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 9.0846e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 9.1551e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.591s user 0m0.330s sys 0m0.138s ++ set +x -------------------------------------------------------------------------------------------------- ( 61 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC6a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xvrtx" ********************************************************* Generating perturbed configuration with delta-xvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "yvrtx" ********************************************************* Generating perturbed configuration with delta-yvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zvrtx" ********************************************************* Generating perturbed configuration with delta-zvrtx[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 3.6892e-16) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 3.9197e-16) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(xbase) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.7527e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 3.1323e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 8.9008e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 9.0846e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 9.1551e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.015 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.412s user 0m0.258s sys 0m0.142s ++ set +x -------------------------------------------------------------------------------------------------- ( 62 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designC6b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xvrtx" ********************************************************* Generating perturbed configuration with delta-xvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xvrtx) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(xvrtx) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(xvrtx) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "yvrtx" ********************************************************* Generating perturbed configuration with delta-yvrtx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(yvrtx) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(yvrtx) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(yvrtx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zvrtx" ********************************************************* Generating perturbed configuration with delta-zvrtx[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zvrtx) check complete with 0 total errors (errmax= 2.7251e-16) d(Edge)/d(zvrtx) check complete with 0 total errors (errmax= 2.8421e-16) d(Node)/d(zvrtx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xbase) check complete with 0 total errors (errmax= 9.8226e-09) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.8823e-08) d(Node)/d(xbase) check complete with 0 total errors (errmax= 3.1250e-08) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0239e-08) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9642e-08) d(Node)/d(ybase) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.5119e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.3142e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(rad) check complete with 0 total errors (errmax= 8.9008e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 9.0846e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 9.1551e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.016 sec Sensitivity checks complete with 0 total errors (max tess err= 3.1250e-08) with 0 suppressions real 0m0.497s user 0m0.328s sys 0m0.102s ++ set +x -------------------------------------------------------------------------------------------------- ( 63 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD0a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.9000e-17) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(croot) check complete with 0 total errors (errmax= 6.3191e-17) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.2591e-17) d(Node)/d(croot) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.008 sec Sensitivity checks complete with 0 total errors (max tess err= 6.3201e-17) with 0 suppressions real 0m0.362s user 0m0.204s sys 0m0.084s ++ set +x -------------------------------------------------------------------------------------------------- ( 64 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD0b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.6833e-09) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.6833e-09) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.3509e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.3509e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.9901e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 1.9491e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.008 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3509e-08) with 0 suppressions real 0m0.339s user 0m0.148s sys 0m0.116s ++ set +x -------------------------------------------------------------------------------------------------- ( 65 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD0c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.6553e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.0001e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.1684e-19) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4741e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.3792e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 7.0000e-09) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(croot) check complete with 0 total errors (errmax= 5.6885e-17) d(Edge)/d(croot) check complete with 0 total errors (errmax= 5.0628e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 4.9911e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.045 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4741e-07) with 0 suppressions real 0m1.402s user 0m1.581s sys 0m0.179s ++ set +x -------------------------------------------------------------------------------------------------- ( 66 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(thickness) check complete with 0 total errors (errmax= 4.6231e-17) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 5.0675e-18) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.0790e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.6502e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.9972e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.6489e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.6238e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 2.5357e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.7591e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5258e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.0418e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.1426e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 7.0900e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0915e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.432 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5258e-10) with 0 suppressions real 0m1.941s user 0m1.548s sys 0m0.291s ++ set +x -------------------------------------------------------------------------------------------------- ( 67 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 7.1318e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.1318e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4445e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.4445e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 8.4612e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 8.4612e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.3268e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.6173e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 5.1426e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 8.4612e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.1045e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.8464e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.0085e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0322e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 6.9234e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.9311e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.531 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4445e-07) with 0 suppressions real 0m1.730s user 0m1.233s sys 0m0.228s ++ set +x -------------------------------------------------------------------------------------------------- ( 68 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD1c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.4086e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.9849e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.1684e-19) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4808e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.3683e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 7.0000e-09) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.2391e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.6815e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.0032e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 7.6241e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.3964e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 2.6815e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.0053e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1510e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.1374e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0882e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.666 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4808e-07) with 0 suppressions real 0m7.305s user 0m6.373s sys 0m0.282s ++ set +x -------------------------------------------------------------------------------------------------- ( 69 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD2a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(thickness) check complete with 0 total errors (errmax= 4.6231e-17) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 5.0675e-18) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.0790e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.6502e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.9972e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 2.6489e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.6238e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 2.5357e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.7591e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5258e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.0418e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.1426e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 7.0900e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0915e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.378 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5258e-10) with 0 suppressions real 0m1.741s user 0m1.402s sys 0m0.234s ++ set +x -------------------------------------------------------------------------------------------------- ( 70 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD2b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 7.1318e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 7.1318e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4445e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.4445e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 8.4612e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 8.4612e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.3268e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.6173e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 5.1426e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 8.4612e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.1045e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.8464e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.0085e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0322e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 6.9234e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.9311e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.595 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4445e-07) with 0 suppressions real 0m1.713s user 0m1.396s sys 0m0.186s ++ set +x -------------------------------------------------------------------------------------------------- ( 71 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD2c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.3369e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.9849e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.1684e-19) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4657e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.3683e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 7.0000e-09) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.1992e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.6815e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.0111e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 7.6241e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.3343e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 2.6815e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.0053e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1510e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 7.1374e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0882e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.427 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4657e-07) with 0 suppressions real 0m6.625s user 0m6.208s sys 0m0.251s ++ set +x -------------------------------------------------------------------------------------------------- ( 72 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD3a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(thickness) check complete with 0 total errors (errmax= 5.0951e-18) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.7090e-18) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.0788e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.4673e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.9673e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.3570e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.8466e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 2.4617e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.9052e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.7403e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5258e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.0898e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.1293e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.0625e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0915e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.459 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5258e-10) with 0 suppressions real 0m2.298s user 0m1.802s sys 0m0.294s ++ set +x -------------------------------------------------------------------------------------------------- ( 73 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD3b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.5252e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.9677e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.4103e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4277e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.0316e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0185e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.9644e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.9221e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.701 sec Sensitivity checks complete with 0 total errors (max tess err= 9.0180e-08) with 0 suppressions real 0m2.110s user 0m1.661s sys 0m0.210s ++ set +x -------------------------------------------------------------------------------------------------- ( 74 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD3c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.8441e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4976e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.1684e-19) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.5477e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.5721e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 7.0000e-09) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.6673e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.3742e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8657e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.7332e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.5002e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.3742e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.0164e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.3194e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.1958e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0593e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.1989e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0913e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.732 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5721e-07) with 0 suppressions real 0m9.271s user 0m8.223s sys 0m0.311s ++ set +x -------------------------------------------------------------------------------------------------- ( 75 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD4a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(thickness) check complete with 0 total errors (errmax= 5.0220e-18) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.7090e-18) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(croot) check complete with 0 total errors (errmax= 5.0063e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.9729e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.9223e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.9721e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.2192e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.2953e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(twist) check complete with 0 total errors (errmax= 5.6260e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.0025e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5258e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.4429e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.1293e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=32 Computing distances of perturbed points from perturbed configuration for ibody=32 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.4042e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0915e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.783 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5258e-10) with 0 suppressions real 0m3.941s user 0m2.925s sys 0m0.417s ++ set +x -------------------------------------------------------------------------------------------------- ( 76 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD4b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.6878e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.7636e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.0183e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4277e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.4134e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0185e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.2750e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.9221e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.351 sec Sensitivity checks complete with 0 total errors (max tess err= 9.0180e-08) with 0 suppressions real 0m3.777s user 0m2.817s sys 0m0.451s ++ set +x -------------------------------------------------------------------------------------------------- ( 77 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD4c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.4970e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4976e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.1684e-19) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.6110e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.5721e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 7.0000e-09) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.3466e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.3742e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(aspect) check complete with 0 total errors (errmax= 7.6378e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.7836e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.0081e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.3742e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.1958e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.3194e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 6.2111e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0524e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 6.2106e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0930e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 7.615 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6110e-07) with 0 suppressions real 0m16.982s user 0m14.658s sys 0m0.464s ++ set +x -------------------------------------------------------------------------------------------------- ( 78 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD5a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(thickness) check complete with 0 total errors (errmax= 5.0951e-18) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.7090e-18) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.0788e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.4673e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.9673e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 3.3570e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.8466e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 2.4617e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 6.9389e-18) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.9052e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 8.7403e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5258e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.0898e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.1293e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.0625e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0925e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0915e-15) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(rottip) check complete with 0 total errors (errmax= 4.8772e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 8.7246e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.5231e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.561 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5258e-10) with 0 suppressions real 0m2.809s user 0m2.086s sys 0m0.393s ++ set +x -------------------------------------------------------------------------------------------------- ( 79 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD5b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.5252e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.9677e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.4103e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.4277e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.0316e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0185e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.9644e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 6.9221e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(rottip) check complete with 0 total errors (errmax= 5.0321e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 8.7573e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.5231e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.928 sec Sensitivity checks complete with 0 total errors (max tess err= 9.0180e-08) with 0 suppressions real 0m2.799s user 0m2.141s sys 0m0.309s ++ set +x -------------------------------------------------------------------------------------------------- ( 80 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD5c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(thickness) check complete with 0 total errors (errmax= 1.8441e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4976e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 2.1684e-19) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.5477e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.5721e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 7.0000e-09) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.6673e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.3742e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.8657e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.7332e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.5002e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.3742e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.0164e-10) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.3194e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.5231e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.1958e-15) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.0593e-15) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 7.1054e-15) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 5.1989e-15) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 7.0913e-15) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 7.0888e-15) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(rottip) check complete with 0 total errors (errmax= 4.3171e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 8.8261e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.5231e-10) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.929 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5721e-07) with 0 suppressions real 0m9.722s user 0m8.230s sys 0m0.390s ++ set +x -------------------------------------------------------------------------------------------------- ( 81 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6a0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(thickness) check complete with 0 total errors (errmax= 4.3629e-17) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.6341e-17) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(croot) check complete with 0 total errors (errmax= 3.8199e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(aspect) check complete with 0 total errors (errmax= 3.6669e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.4361e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.3814e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.9250e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(twist) check complete with 0 total errors (errmax= 4.0275e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 7.1763e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2207e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.2189e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.1652e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.4214e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(rottip) check complete with 0 total errors (errmax= 4.0045e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.1634e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.1467e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.4803e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.4647e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.6915e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.0316e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.9072e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.404 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9945e-08) with 0 suppressions real 0m3.556s user 0m2.984s sys 0m0.397s ++ set +x -------------------------------------------------------------------------------------------------- ( 82 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6a1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.3024e-17) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.6341e-17) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.6945e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.5378e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.4361e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.6117e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.9250e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.6551e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.8506e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2207e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.0875e-08) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.0757e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.3297e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(rottip) check complete with 0 total errors (errmax= 6.7015e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 6.8115e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.5202e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.2971e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.0802e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.6915e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.6801e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.9072e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.556 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9945e-08) with 0 suppressions real 0m2.889s user 0m2.357s sys 0m0.430s ++ set +x -------------------------------------------------------------------------------------------------- ( 83 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6a2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.9883e-17) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.6341e-17) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 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 tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(croot) check complete with 0 total errors (errmax= 6.9049e-16) d(Edge)/d(croot) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(aspect) check complete with 0 total errors (errmax= 6.8045e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.4361e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.6723e-16) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.9250e-16) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.5506e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.8506e-11) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2207e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 1.0766e-08) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.0581e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.3172e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(rottip) check complete with 0 total errors (errmax= 6.6381e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 6.8115e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.5843e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.3208e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.4197e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.6915e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.8790e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 2.9072e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.395 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9945e-08) with 0 suppressions real 0m2.376s user 0m1.928s sys 0m0.335s ++ set +x -------------------------------------------------------------------------------------------------- ( 84 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6b0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.3695e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.8298e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(camber) check complete with 0 total errors (errmax= 7.9553e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 9.0180e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.3291e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.2654e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 5.7917e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(taper) check complete with 0 total errors (errmax= 3.2459e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 7.0300e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1422e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.4744e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.1242e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.3712e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(rottip) check complete with 0 total errors (errmax= 4.0116e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.0058e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.1838e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.5130e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.3896e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.8745e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.671 sec Sensitivity checks complete with 0 total errors (max tess err= 9.0180e-08) with 0 suppressions real 0m2.844s user 0m2.259s sys 0m0.421s ++ set +x -------------------------------------------------------------------------------------------------- ( 85 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6b1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.6418e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.0639e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(camber) check complete with 0 total errors (errmax= 8.4705e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 7.2144e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.6427e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.9175e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.5822e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.7597e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.9440e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.4128e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1422e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.1023e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.0361e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.2668e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.7012e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.0058e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.2304e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.4536e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(ybase) check complete with 0 total errors (errmax= 2.9369e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.1774e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 4.1115e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.073 sec Sensitivity checks complete with 0 total errors (max tess err= 8.4705e-08) with 0 suppressions real 0m2.916s user 0m2.385s sys 0m0.381s ++ set +x -------------------------------------------------------------------------------------------------- ( 86 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6b2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.4465e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 3.0639e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(camber) check complete with 0 total errors (errmax= 8.1311e-08) d(Edge)/d(camber) check complete with 0 total errors (errmax= 7.2144e-08) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(croot) check complete with 0 total errors (errmax= 4.4279e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.9175e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.1099e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 6.7597e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.9440e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 4.8969e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(twist) check complete with 0 total errors (errmax= 6.3775e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.1422e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.0511e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.0171e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.2443e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.6810e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.0058e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.1332e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.4536e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(ybase) check complete with 0 total errors (errmax= 3.1018e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(zbase) check complete with 0 total errors (errmax= 2.8676e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 4.1115e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.523 sec Sensitivity checks complete with 0 total errors (max tess err= 8.1311e-08) with 0 suppressions real 0m2.093s user 0m1.585s sys 0m0.371s ++ set +x -------------------------------------------------------------------------------------------------- ( 87 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6c0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.4539e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 2.4974e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4387e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.5710e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 1.8504e-22) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.1222e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 3.3732e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(aspect) check complete with 0 total errors (errmax= 4.6536e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.5022e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.6891e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.3732e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(twist) check complete with 0 total errors (errmax= 7.2828e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.0554e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 8.5698e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.1505e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.4381e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(rottip) check complete with 0 total errors (errmax= 2.8236e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.0604e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(xbase) check complete with 0 total errors (errmax= 8.2894e-17) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.5085e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(ybase) check complete with 0 total errors (errmax= 4.7758e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 3.9252e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=22 Computing distances of perturbed points from perturbed configuration for ibody=22 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.1031e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 4.7967e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.894 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5710e-07) with 0 suppressions real 0m13.451s user 0m12.015s sys 0m0.631s ++ set +x -------------------------------------------------------------------------------------------------- ( 88 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6c1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(thickness) check complete with 0 total errors (errmax= 3.8519e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.9980e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4492e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.2568e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(croot) check complete with 0 total errors (errmax= 1.8261e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.7591e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.6956e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.3988e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.9258e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.3732e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.9291e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.0554e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 9.9135e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.0416e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.8270e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.4921e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.0604e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.0136e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.2971e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(ybase) check complete with 0 total errors (errmax= 4.5432e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.5325e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.7521e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 4.0540e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 5.480 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4492e-07) with 0 suppressions real 0m15.365s user 0m13.968s sys 0m0.480s ++ set +x -------------------------------------------------------------------------------------------------- ( 89 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designD6c2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thickness" ********************************************************* Generating perturbed configuration with delta-thickness[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(thickness) check complete with 0 total errors (errmax= 2.4164e-08) d(Edge)/d(thickness) check complete with 0 total errors (errmax= 1.9980e-08) d(Node)/d(thickness) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber" ********************************************************* Generating perturbed configuration with delta-camber[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(camber) check complete with 0 total errors (errmax= 1.4553e-07) d(Edge)/d(camber) check complete with 0 total errors (errmax= 1.2568e-07) d(Node)/d(camber) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "croot" ********************************************************* Generating perturbed configuration with delta-croot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(croot) check complete with 0 total errors (errmax= 2.2025e-09) d(Edge)/d(croot) check complete with 0 total errors (errmax= 2.7591e-09) d(Node)/d(croot) check complete with 0 total errors (errmax= 4.9960e-16) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00800000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.2514e-16) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 8.1506e-16) d(Node)/d(aspect) check complete with 0 total errors (errmax= 4.6111e-16) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.7646e-09) d(Edge)/d(taper) check complete with 0 total errors (errmax= 3.3732e-09) d(Node)/d(taper) check complete with 0 total errors (errmax= 4.5776e-16) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(twist) check complete with 0 total errors (errmax= 8.4935e-11) d(Edge)/d(twist) check complete with 0 total errors (errmax= 1.0554e-10) d(Node)/d(twist) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 9.4547e-09) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.0229e-08) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.9945e-08) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 1.7893e-09) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 2.4177e-09) ********************************************************* Starting tessellation sensitivity wrt "rottip" ********************************************************* Generating perturbed configuration with delta-rottip[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(rottip) check complete with 0 total errors (errmax= 3.5428e-11) d(Edge)/d(rottip) check complete with 0 total errors (errmax= 7.0604e-11) d(Node)/d(rottip) check complete with 0 total errors (errmax= 1.2185e-10) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(xbase) check complete with 0 total errors (errmax= 1.1767e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 1.5032e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(ybase) check complete with 0 total errors (errmax= 6.0712e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 4.2397e-17) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(zbase) check complete with 0 total errors (errmax= 3.6875e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.269 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4553e-07) with 0 suppressions real 0m11.689s user 0m10.815s sys 0m0.511s ++ set +x -------------------------------------------------------------------------------------------------- ( 90 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dxbar" ********************************************************* Generating perturbed configuration with delta-dxbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 5.5260e-16) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 5.5260e-16) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dybar" ********************************************************* Generating perturbed configuration with delta-dybar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dybar) check complete with 0 total errors (errmax= 5.9339e-17) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(dybar) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dzbar" ********************************************************* Generating perturbed configuration with delta-dzbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 5.9063e-17) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dxbox" ********************************************************* Generating perturbed configuration with delta-dxbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 7.2519e-16) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dybox" ********************************************************* Generating perturbed configuration with delta-dybox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dybox) check complete with 0 total errors (errmax= 6.0321e-17) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(dybox) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dzbox" ********************************************************* Generating perturbed configuration with delta-dzbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 6.0522e-17) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.125 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m2.970s user 0m3.031s sys 0m0.387s ++ set +x -------------------------------------------------------------------------------------------------- ( 91 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dxbar" ********************************************************* Generating perturbed configuration with delta-dxbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 1.1466e-15) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 6.2569e-16) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dybar" ********************************************************* Generating perturbed configuration with delta-dybar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dybar) check complete with 0 total errors (errmax= 1.3212e-14) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 8.9006e-16) d(Node)/d(dybar) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dzbar" ********************************************************* Generating perturbed configuration with delta-dzbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 1.3213e-14) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 8.8821e-16) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dxbox" ********************************************************* Generating perturbed configuration with delta-dxbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 1.0272e-15) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 1.8513e-15) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dybox" ********************************************************* Generating perturbed configuration with delta-dybox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dybox) check complete with 0 total errors (errmax= 1.3183e-14) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 1.3184e-16) d(Node)/d(dybox) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dzbox" ********************************************************* Generating perturbed configuration with delta-dzbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 1.3241e-14) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 8.9006e-16) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 8.8818e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.189 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3241e-14) with 0 suppressions real 0m6.574s user 0m8.417s sys 0m0.781s ++ set +x -------------------------------------------------------------------------------------------------- ( 92 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thick" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(thick) check complete with 0 total errors (errmax= 1.3765e-16) d(Edge)/d(thick) check complete with 0 total errors (errmax= 1.2589e-16) d(Node)/d(thick) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dxbar" ********************************************************* Generating perturbed configuration with delta-dxbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 3.1619e-15) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 1.0268e-15) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "dybar" ********************************************************* Generating perturbed configuration with delta-dybar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dybar) check complete with 0 total errors (errmax= 9.4907e-17) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(dybar) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "dzbar" ********************************************************* Generating perturbed configuration with delta-dzbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 9.4907e-17) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 1.4658e-16) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "dxbox" ********************************************************* Generating perturbed configuration with delta-dxbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 3.2435e-15) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 1.1498e-15) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "dybox" ********************************************************* Generating perturbed configuration with delta-dybox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dybox) check complete with 0 total errors (errmax= 1.2942e-14) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 8.8827e-16) d(Node)/d(dybox) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "dzbox" ********************************************************* Generating perturbed configuration with delta-dzbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 6.2885e-17) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 2.4286e-16) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.385 sec Sensitivity checks complete with 0 total errors (max tess err= 1.2942e-14) with 0 suppressions real 0m14.377s user 0m16.400s sys 0m1.259s ++ set +x -------------------------------------------------------------------------------------------------- ( 93 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "thick" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.4332e-07) d(Edge)/d(thick) check complete with 0 total errors (errmax= 2.5720e-05) d(Node)/d(thick) check complete with 0 total errors (errmax= 6.1338e-09) ********************************************************* Starting tessellation sensitivity wrt "dxbar" ********************************************************* Generating perturbed configuration with delta-dxbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dxbar) check complete with 0 total errors (errmax= 5.8803e-07) d(Edge)/d(dxbar) check complete with 0 total errors (errmax= 3.5794e-04) d(Node)/d(dxbar) check complete with 0 total errors (errmax= 5.1281e-09) ********************************************************* Starting tessellation sensitivity wrt "dybar" ********************************************************* Generating perturbed configuration with delta-dybar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dybar) check complete with 0 total errors (errmax= 8.3232e-08) d(Edge)/d(dybar) check complete with 0 total errors (errmax= 6.2763e-15) d(Node)/d(dybar) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "dzbar" ********************************************************* Generating perturbed configuration with delta-dzbar[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dzbar) check complete with 0 total errors (errmax= 8.3232e-08) d(Edge)/d(dzbar) check complete with 0 total errors (errmax= 8.7666e-15) d(Node)/d(dzbar) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "dxbox" ********************************************************* Generating perturbed configuration with delta-dxbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dxbox) check complete with 0 total errors (errmax= 3.8548e-07) d(Edge)/d(dxbox) check complete with 0 total errors (errmax= 3.5794e-04) d(Node)/d(dxbox) check complete with 0 total errors (errmax= 5.1281e-09) ********************************************************* Starting tessellation sensitivity wrt "dybox" ********************************************************* Generating perturbed configuration with delta-dybox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dybox) check complete with 0 total errors (errmax= 6.3676e-17) d(Edge)/d(dybox) check complete with 0 total errors (errmax= 4.5128e-15) d(Node)/d(dybox) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dzbox" ********************************************************* Generating perturbed configuration with delta-dzbox[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=29 Computing distances of perturbed points from perturbed configuration for ibody=29 d(Face)/d(dzbox) check complete with 0 total errors (errmax= 6.1381e-17) d(Edge)/d(dzbox) check complete with 0 total errors (errmax= 4.8899e-15) d(Node)/d(dzbox) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.495 sec Sensitivity checks complete with 8 total errors (max tess err= 3.5794e-04) with 0 suppressions real 0m17.717s user 0m23.600s sys 0m3.852s ++ set +x -------------------------------------------------------------------------------------------------- ( 94 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcent" ********************************************************* Generating perturbed configuration with delta-xcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(xcent) check complete with 0 total errors (errmax= 1.2154e-16) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 4.3290e-07) d(Node)/d(xcent) check complete with 0 total errors (errmax= 8.6466e-07) ********************************************************* Starting tessellation sensitivity wrt "ycent" ********************************************************* Generating perturbed configuration with delta-ycent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(ycent) check complete with 0 total errors (errmax= 1.2116e-16) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 1.1277e-16) d(Node)/d(ycent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "thick" ********************************************************* Generating perturbed configuration with delta-thick[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(thick) check complete with 0 total errors (errmax= 2.6409e-17) d(Edge)/d(thick) check complete with 0 total errors (errmax= 2.7756e-17) d(Node)/d(thick) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.2183e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 5.4703e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 1.9394e-06) ********************************************************* Starting tessellation sensitivity wrt "xbox" ********************************************************* Generating perturbed configuration with delta-xbox[1,1]= 0.00140000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(xbox) check complete with 0 total errors (errmax= 1.8706e-16) d(Edge)/d(xbox) check complete with 0 total errors (errmax= 4.7700e-07) d(Node)/d(xbox) check complete with 0 total errors (errmax= 1.6953e-06) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 2.5281e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 6.0842e-08) d(Node)/d(dx) check complete with 0 total errors (errmax= 2.1607e-07) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(dy) check complete with 0 total errors (errmax= 1.3079e-16) d(Edge)/d(dy) check complete with 0 total errors (errmax= 9.4585e-17) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(dz) check complete with 0 total errors (errmax= 2.8362e-17) d(Edge)/d(dz) check complete with 0 total errors (errmax= 2.0981e-17) d(Node)/d(dz) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.755 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9394e-06) with 0 suppressions real 0m4.198s user 0m4.406s sys 0m0.556s ++ set +x -------------------------------------------------------------------------------------------------- ( 95 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE6.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xsize) check complete with 0 total errors (errmax= 3.9585e-17) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.2433e-17) d(Node)/d(xsize) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(ysize) check complete with 0 total errors (errmax= 3.1472e-17) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 3.1472e-17) d(Node)/d(ysize) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(zsize) check complete with 0 total errors (errmax= 3.8187e-17) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 3.8186e-17) d(Node)/d(zsize) check complete with 0 total errors (errmax= 3.9252e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.039 sec Sensitivity checks complete with 0 total errors (max tess err= 3.9595e-17) with 0 suppressions real 0m0.778s user 0m0.608s sys 0m0.174s ++ set +x -------------------------------------------------------------------------------------------------- ( 96 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE7.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.8130e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.8130e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "xcent" ********************************************************* Generating perturbed configuration with delta-xcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xcent) check complete with 0 total errors (errmax= 8.2001e-17) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 1.3917e-16) d(Node)/d(xcent) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ycent" ********************************************************* Generating perturbed configuration with delta-ycent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ycent) check complete with 0 total errors (errmax= 2.5696e-17) d(Edge)/d(ycent) check complete with 0 total errors (errmax= 4.2289e-17) d(Node)/d(ycent) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "size" ********************************************************* Generating perturbed configuration with delta-size[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(size) check complete with 0 total errors (errmax= 7.5073e-17) d(Edge)/d(size) check complete with 0 total errors (errmax= 9.3831e-17) d(Node)/d(size) check complete with 0 total errors (errmax= 1.1102e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.142 sec Sensitivity checks complete with 0 total errors (max tess err= 1.8131e-16) with 0 suppressions real 0m1.548s user 0m1.523s sys 0m0.311s ++ set +x -------------------------------------------------------------------------------------------------- ( 97 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE8.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(dx) check complete with 0 total errors (errmax= 1.8130e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 1.8130e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "xcent" ********************************************************* Generating perturbed configuration with delta-xcent[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xcent) check complete with 0 total errors (errmax= 8.0398e-17) d(Edge)/d(xcent) check complete with 0 total errors (errmax= 1.4333e-16) d(Node)/d(xcent) check complete with 0 total errors (errmax= 2.5262e-17) ********************************************************* Starting tessellation sensitivity wrt "size" ********************************************************* Generating perturbed configuration with delta-size[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(size) check complete with 0 total errors (errmax= 8.6522e-17) d(Edge)/d(size) check complete with 0 total errors (errmax= 1.5701e-16) d(Node)/d(size) check complete with 0 total errors (errmax= 1.1102e-19) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.100 sec Sensitivity checks complete with 0 total errors (max tess err= 1.8131e-16) with 0 suppressions real 0m1.289s user 0m1.332s sys 0m0.237s ++ set +x -------------------------------------------------------------------------------------------------- ( 98 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designE9.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dx) check complete with 0 total errors (errmax= 2.1499e-17) d(Edge)/d(dx) check complete with 0 total errors (errmax= 2.1499e-17) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dy) check complete with 0 total errors (errmax= 2.1499e-17) d(Edge)/d(dy) check complete with 0 total errors (errmax= 2.1499e-17) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dxall" ********************************************************* Generating perturbed configuration with delta-dxall[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dxall) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(dxall) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dxall) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dyall" ********************************************************* Generating perturbed configuration with delta-dyall[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dyall) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(dyall) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(dyall) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dzall" ********************************************************* Generating perturbed configuration with delta-dzall[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dzall) check complete with 0 total errors (errmax= 1.5578e-19) d(Edge)/d(dzall) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(dzall) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.098 sec Sensitivity checks complete with 0 total errors (max tess err= 2.1509e-17) with 0 suppressions real 0m1.906s user 0m1.658s sys 0m0.327s ++ set +x -------------------------------------------------------------------------------------------------- ( 99 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designEa.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dxtop" ********************************************************* Generating perturbed configuration with delta-dxtop[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(dxtop) check complete with 0 total errors (errmax= 1.1581e-16) d(Edge)/d(dxtop) check complete with 0 total errors (errmax= 1.8766e-16) d(Node)/d(dxtop) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "dztop" ********************************************************* Generating perturbed configuration with delta-dztop[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(dztop) check complete with 0 total errors (errmax= 8.1079e-17) d(Edge)/d(dztop) check complete with 0 total errors (errmax= 8.1079e-17) d(Node)/d(dztop) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dxbot" ********************************************************* Generating perturbed configuration with delta-dxbot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(dxbot) check complete with 0 total errors (errmax= 1.1283e-16) d(Edge)/d(dxbot) check complete with 0 total errors (errmax= 1.8766e-16) d(Node)/d(dxbot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dzbot" ********************************************************* Generating perturbed configuration with delta-dzbot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(dzbot) check complete with 0 total errors (errmax= 6.3178e-17) d(Edge)/d(dzbot) check complete with 0 total errors (errmax= 6.2285e-17) d(Node)/d(dzbot) check complete with 0 total errors (errmax= 1.1102e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.081 sec Sensitivity checks complete with 0 total errors (max tess err= 1.8767e-16) with 0 suppressions real 0m1.601s user 0m1.308s sys 0m0.320s ++ set +x -------------------------------------------------------------------------------------------------- ( 100 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designEb.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dxtop" ********************************************************* Generating perturbed configuration with delta-dxtop[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dxtop) check complete with 0 total errors (errmax= 7.9761e-17) d(Edge)/d(dxtop) check complete with 0 total errors (errmax= 7.9761e-17) d(Node)/d(dxtop) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dxbot" ********************************************************* Generating perturbed configuration with delta-dxbot[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dxbot) check complete with 0 total errors (errmax= 5.4165e-17) d(Edge)/d(dxbot) check complete with 0 total errors (errmax= 8.3881e-17) d(Node)/d(dxbot) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 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 ocsmGetTessVel -> 0.149 sec Sensitivity checks complete with 0 total errors (max tess err= 8.3891e-17) with 0 suppressions real 0m1.723s user 0m1.336s sys 0m0.337s ++ set +x -------------------------------------------------------------------------------------------------- ( 101 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF0bb.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 3.3523e-16) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.5863e-16) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 3.2918e-16) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.9735e-16) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.4088e-16) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.4647e-16) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4103e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.3671e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.0952e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.0426e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.3996e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.3471e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4528e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.4769e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.1235e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.1139e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 6.1232e-17) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4256e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.3599e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 2.6059e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.2077e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 9.5636e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.0501e-16) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.5114e-17) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.4327e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.201 sec Sensitivity checks complete with 0 total errors (max tess err= 2.4769e-07) with 0 suppressions real 0m5.876s user 0m4.525s sys 0m0.650s ++ set +x -------------------------------------------------------------------------------------------------- ( 102 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1bb.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.4528e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 9.8201e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 2.2660e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.5475e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.7021e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.3969e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 2.7125e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.6427e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 5.2005e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.4408e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.5519e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.7736e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.0280e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.4769e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.6419e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 6.7933e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.0170e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.3599e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 2.3362e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.2077e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 8.8330e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.0501e-16) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.8121e-17) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.2194e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.663 sec Sensitivity checks complete with 0 total errors (max tess err= 2.4769e-07) with 0 suppressions real 0m4.860s user 0m3.982s sys 0m0.549s ++ set +x -------------------------------------------------------------------------------------------------- ( 103 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1rr.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.3324e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.2354e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.4226e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.3962e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.2858e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.7481e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.0065e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.6308e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.5138e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 5.6194e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 5.6606e-17) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.5664e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.0515e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.5103e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.3688e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.0379e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.0341e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 5.6606e-17) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.6606e-17) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 8.1807e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.8647e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 8.3529e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 5.9252e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 6.0448e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.7903e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.6606e-17) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 2.7664e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 2.0171e-07) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 8.0563e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.1759e-07) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.7704e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.8530e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0020e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.0337e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.9284e-17) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 9.5332e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.841 sec Sensitivity checks complete with 0 total errors (max tess err= 6.3324e-07) with 0 suppressions real 0m6.353s user 0m5.877s sys 0m0.552s ++ set +x -------------------------------------------------------------------------------------------------- ( 104 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1rs.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.5375e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.1263e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.2491e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.1225e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.4200e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.7127e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.2459e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.1441e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.4417e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.0335e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4761e-16) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 8.7426e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.5471e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.2953e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 3.0945e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 3.9436e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.4831e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4761e-16) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4761e-16) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 6.7876e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.9526e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 7.2786e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 6.2386e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.8296e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4911e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4761e-16) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 2.3836e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 1.9297e-07) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 1.4761e-16) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 6.1078e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.9364e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.6170e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.8186e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.6069e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.5714e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.540 sec Sensitivity checks complete with 0 total errors (max tess err= 7.0335e-07) with 0 suppressions real 0m6.772s user 0m5.849s sys 0m0.609s ++ set +x -------------------------------------------------------------------------------------------------- ( 105 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1sr.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.6400e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.6905e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.5835e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 9.2439e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 9.5396e-09) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.3916e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 7.1733e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.6015e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 3.6434e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 5.4548e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.3723e-16) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.6756e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.3170e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.6143e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.2213e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 3.2718e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.1127e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.3723e-16) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.3723e-16) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.6148e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 5.2371e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 6.8093e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 5.6790e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 4.3612e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.7604e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.3723e-16) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.3723e-16) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 6.6008e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.1547e-07) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 6.8815e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.5397e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.5568e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.0795e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.4787e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 9.3632e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.841 sec Sensitivity checks complete with 0 total errors (max tess err= 5.6400e-07) with 0 suppressions real 0m7.579s user 0m6.771s sys 0m0.654s ++ set +x -------------------------------------------------------------------------------------------------- ( 106 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF1ss.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.1737e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.6181e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.4622e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 8.8591e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.1117e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.3823e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.0273e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.1086e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xloc) check complete with 0 total errors (errmax= 3.6512e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.8710e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4815e-16) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 9.0621e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.7345e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.4069e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.9706e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 4.0664e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.5295e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(height) check complete with 0 total errors (errmax= 1.4815e-16) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4815e-16) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 5.1104e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 5.2872e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 6.5319e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 6.0143e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 4.6215e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4690e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4815e-16) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.4815e-16) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 1.4815e-16) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xbase) check complete with 0 total errors (errmax= 6.8135e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.6518e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.6072e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.8521e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.5783e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.2873e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.390 sec Sensitivity checks complete with 0 total errors (max tess err= 6.8710e-07) with 0 suppressions real 0m7.428s user 0m6.482s sys 0m0.567s ++ set +x -------------------------------------------------------------------------------------------------- ( 107 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2bb.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.4628e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.0830e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.2409e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.2604e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.6641e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.3676e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 2.7582e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.6902e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 4.9304e-32) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 3.4006e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 1.5116e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 3.9174e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.8353e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 1.1043e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.4769e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 1.4881e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.0136e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 1.0978e-07) d(Edge)/d(width) check complete with 0 total errors (errmax= 2.3599e-07) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xbase) check complete with 0 total errors (errmax= 2.5498e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 3.2077e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(ybase) check complete with 0 total errors (errmax= 9.7194e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.0501e-16) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(zbase) check complete with 0 total errors (errmax= 8.5443e-17) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.3987e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.827 sec Sensitivity checks complete with 0 total errors (max tess err= 2.4769e-07) with 0 suppressions real 0m3.467s user 0m2.697s sys 0m0.375s ++ set +x -------------------------------------------------------------------------------------------------- ( 108 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2rr.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 6.0473e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.6311e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.5609e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.6816e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.2860e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.1164e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.1110e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.2255e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.1098e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.8534e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.0086e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.0774e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.8719e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.3984e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.8946e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.0023e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 8.2069e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.7560e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 7.3872e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.9065e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.7790e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.7277e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 2.6578e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 2.0505e-07) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 7.6858e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.1390e-07) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.6851e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.2636e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 9.2228e-17) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.2857e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 7.6046e-17) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.0490e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.259 sec Sensitivity checks complete with 0 total errors (max tess err= 6.8534e-07) with 0 suppressions real 0m5.879s user 0m4.721s sys 0m0.523s ++ set +x -------------------------------------------------------------------------------------------------- ( 109 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2rs.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.1537e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.4842e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.3133e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 4.2081e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.1095e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.0818e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.3155e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.3811e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.7293e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.5388e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.0324e-16) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.9344e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.5854e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.6799e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.9264e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.9206e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.4567e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.0324e-16) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.0324e-16) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 7.2258e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.7220e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 6.4141e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 5.1847e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.7121e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4789e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.0324e-16) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 2.4695e-07) d(Edge)/d(Rnose) check complete with 0 total errors (errmax= 1.9633e-07) d(Node)/d(Rnose) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 1.0324e-16) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 5.9908e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.5980e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.2253e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.8218e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.2386e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 1.1455e-16) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.806 sec Sensitivity checks complete with 0 total errors (max tess err= 7.5388e-07) with 0 suppressions real 0m5.342s user 0m4.503s sys 0m0.442s ++ set +x -------------------------------------------------------------------------------------------------- ( 110 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2sr.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 5.4230e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.1102e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.5918e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.1886e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.0522e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.0859e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 8.7958e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.1184e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.1511e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.5045e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 6.4650e-17) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.9214e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.1910e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 4.0299e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.2588e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.3469e-08) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.2830e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 6.4650e-17) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 6.4650e-17) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.6799e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.5716e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.8821e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.6048e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 4.6130e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.6764e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 6.4650e-17) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 6.4650e-17) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 6.4542e-08) d(Edge)/d(Rtail) check complete with 0 total errors (errmax= 1.1205e-07) d(Node)/d(Rtail) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 6.7782e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.6261e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.0748e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 2.3156e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 9.1010e-17) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 9.0538e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.778 sec Sensitivity checks complete with 0 total errors (max tess err= 6.5045e-07) with 0 suppressions real 0m5.302s user 0m4.657s sys 0m0.454s ++ set +x -------------------------------------------------------------------------------------------------- ( 111 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designF2ss.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xloc[1,1]" ********************************************************* Generating perturbed configuration with delta-xloc[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.7039e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 3.0148e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[2,1]" ********************************************************* Generating perturbed configuration with delta-xloc[2,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.3865e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 6.8104e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[3,1]" ********************************************************* Generating perturbed configuration with delta-xloc[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.0082e-08) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 1.0798e-08) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[4,1]" ********************************************************* Generating perturbed configuration with delta-xloc[4,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 1.1085e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 2.3182e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xloc[5,1]" ********************************************************* Generating perturbed configuration with delta-xloc[5,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xloc) check complete with 0 total errors (errmax= 4.0140e-07) d(Edge)/d(xloc) check complete with 0 total errors (errmax= 7.2595e-07) d(Node)/d(xloc) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[1,1]" ********************************************************* Generating perturbed configuration with delta-height[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.2321e-16) 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 tessellation sensitivity wrt "height[2,1]" ********************************************************* Generating perturbed configuration with delta-height[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 8.1827e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.6507e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[3,1]" ********************************************************* Generating perturbed configuration with delta-height[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.8546e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.8844e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[4,1]" ********************************************************* Generating perturbed configuration with delta-height[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 3.9144e-09) d(Edge)/d(height) check complete with 0 total errors (errmax= 2.6617e-09) d(Node)/d(height) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "height[5,1]" ********************************************************* Generating perturbed configuration with delta-height[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(height) check complete with 0 total errors (errmax= 1.2321e-16) 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 tessellation sensitivity wrt "width[1,1]" ********************************************************* Generating perturbed configuration with delta-width[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.2321e-16) 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 tessellation sensitivity wrt "width[2,1]" ********************************************************* Generating perturbed configuration with delta-width[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.7554e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.5872e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[3,1]" ********************************************************* Generating perturbed configuration with delta-width[3,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 5.5665e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 4.9849e-09) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[4,1]" ********************************************************* Generating perturbed configuration with delta-width[4,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 4.4694e-08) d(Edge)/d(width) check complete with 0 total errors (errmax= 1.4485e-08) d(Node)/d(width) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "width[5,1]" ********************************************************* Generating perturbed configuration with delta-width[5,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(width) check complete with 0 total errors (errmax= 1.2321e-16) 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 tessellation sensitivity wrt "Rnose" ********************************************************* Generating perturbed configuration with delta-Rnose[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rnose) check complete with 0 total errors (errmax= 1.2321e-16) 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 tessellation sensitivity wrt "Rtail" ********************************************************* Generating perturbed configuration with delta-Rtail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(Rtail) check complete with 0 total errors (errmax= 1.2321e-16) 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 tessellation sensitivity wrt "xbase" ********************************************************* Generating perturbed configuration with delta-xbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbase) check complete with 0 total errors (errmax= 7.0323e-16) d(Edge)/d(xbase) check complete with 0 total errors (errmax= 4.4166e-16) d(Node)/d(xbase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ybase" ********************************************************* Generating perturbed configuration with delta-ybase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybase) check complete with 0 total errors (errmax= 1.3868e-16) d(Edge)/d(ybase) check complete with 0 total errors (errmax= 1.9157e-19) d(Node)/d(ybase) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zbase" ********************************************************* Generating perturbed configuration with delta-zbase[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbase) check complete with 0 total errors (errmax= 1.3551e-16) d(Edge)/d(zbase) check complete with 0 total errors (errmax= 8.5487e-17) d(Node)/d(zbase) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.611 sec Sensitivity checks complete with 0 total errors (max tess err= 7.2595e-07) with 0 suppressions real 0m5.861s user 0m5.172s sys 0m0.440s ++ set +x -------------------------------------------------------------------------------------------------- ( 112 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.2804e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.3205e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 1.2242e-06) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(taper) check complete with 0 total errors (errmax= 2.1260e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.4511e-06) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.4889e-16) 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 tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.4801e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 7.4495e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.1660e-10) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "thick_r" ********************************************************* Generating perturbed configuration with delta-thick_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 1.3332e-07) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 1.0818e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) ********************************************************* Starting tessellation sensitivity wrt "camber_r" ********************************************************* Generating perturbed configuration with delta-camber_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 5.7225e-07) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2098e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) ********************************************************* Starting tessellation sensitivity wrt "thick_t" ********************************************************* Generating perturbed configuration with delta-thick_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 1.4889e-16) 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 tessellation sensitivity wrt "camber_t" ********************************************************* Generating perturbed configuration with delta-camber_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 1.4889e-16) 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 ocsmGetTessVel -> 0.082 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6755e-06) with 0 suppressions real 0m3.864s user 0m3.593s sys 0m0.306s ++ set +x -------------------------------------------------------------------------------------------------- ( 113 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.3328e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1519e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.4587e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2194e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1416e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.6039e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5415e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6461e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.8291e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "thick_r" ********************************************************* Generating perturbed configuration with delta-thick_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 4.6611e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.6129e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) ********************************************************* Starting tessellation sensitivity wrt "camber_r" ********************************************************* Generating perturbed configuration with delta-camber_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 1.1852e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2015e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) ********************************************************* Starting tessellation sensitivity wrt "thick_t" ********************************************************* Generating perturbed configuration with delta-thick_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 4.2612e-05) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 1.3218e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber_t" ********************************************************* Generating perturbed configuration with delta-camber_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 7.4374e-06) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 4.4772e-07) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 2.1999e-08) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.437 sec Sensitivity checks complete with 0 total errors (max tess err= 4.6611e-05) with 0 suppressions real 0m17.079s user 0m14.655s sys 0m0.428s ++ set +x -------------------------------------------------------------------------------------------------- ( 114 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.3328e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1519e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.3328e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1519e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.4587e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.4587e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2194e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1416e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2161e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1416e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.6039e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5415e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5998e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5415e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6461e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.8291e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6711e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.8291e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "thick_r" ********************************************************* Generating perturbed configuration with delta-thick_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 4.6611e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.6129e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 4.6642e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.6129e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) ********************************************************* Starting tessellation sensitivity wrt "camber_r" ********************************************************* Generating perturbed configuration with delta-camber_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 1.1852e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2015e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 1.1926e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2015e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) ********************************************************* Starting tessellation sensitivity wrt "thick_t" ********************************************************* Generating perturbed configuration with delta-thick_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 4.2612e-05) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 1.3218e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 4.2680e-05) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 1.3218e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber_t" ********************************************************* Generating perturbed configuration with delta-camber_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 7.4374e-06) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 4.4772e-07) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 2.1999e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 7.4161e-06) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 4.4772e-07) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 2.1999e-08) ********************************************************* Starting tessellation sensitivity wrt "dxwing" ********************************************************* Generating perturbed configuration with delta-dxwing[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 7.9732e-17) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.2499e-15) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 2.0040e-15) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 6.882 sec Sensitivity checks complete with 0 total errors (max tess err= 4.6642e-05) with 0 suppressions real 0m24.797s user 0m23.318s sys 0m0.604s ++ set +x -------------------------------------------------------------------------------------------------- ( 115 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.3328e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1519e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.4587e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2194e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1416e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.6039e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5415e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6461e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.8291e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "thick_r" ********************************************************* Generating perturbed configuration with delta-thick_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 4.6611e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.6129e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) ********************************************************* Starting tessellation sensitivity wrt "camber_r" ********************************************************* Generating perturbed configuration with delta-camber_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 1.1852e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2015e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) ********************************************************* Starting tessellation sensitivity wrt "thick_t" ********************************************************* Generating perturbed configuration with delta-thick_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 4.2612e-05) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 1.3218e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber_t" ********************************************************* Generating perturbed configuration with delta-camber_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 7.4374e-06) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 4.4772e-07) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 2.1999e-08) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.311 sec Sensitivity checks complete with 0 total errors (max tess err= 4.6611e-05) with 0 suppressions real 0m16.033s user 0m14.770s sys 0m0.399s ++ set +x -------------------------------------------------------------------------------------------------- ( 116 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.3328e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1519e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.3328e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1519e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.4587e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 8.8344e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.4587e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2194e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1416e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.2161e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1416e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.6039e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5415e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5998e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5415e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6461e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.8291e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6711e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.8291e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "thick_r" ********************************************************* Generating perturbed configuration with delta-thick_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 4.6611e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.6129e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(thick_r) check complete with 0 total errors (errmax= 4.6642e-05) d(Edge)/d(thick_r) check complete with 0 total errors (errmax= 2.6129e-07) d(Node)/d(thick_r) check complete with 0 total errors (errmax= 8.6736e-19) ********************************************************* Starting tessellation sensitivity wrt "camber_r" ********************************************************* Generating perturbed configuration with delta-camber_r[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 1.1852e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2015e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(camber_r) check complete with 0 total errors (errmax= 1.1926e-05) d(Edge)/d(camber_r) check complete with 0 total errors (errmax= 5.2015e-07) d(Node)/d(camber_r) check complete with 0 total errors (errmax= 2.6073e-08) ********************************************************* Starting tessellation sensitivity wrt "thick_t" ********************************************************* Generating perturbed configuration with delta-thick_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 4.2612e-05) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 1.3218e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(thick_t) check complete with 0 total errors (errmax= 4.2680e-05) d(Edge)/d(thick_t) check complete with 0 total errors (errmax= 1.3218e-07) d(Node)/d(thick_t) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "camber_t" ********************************************************* Generating perturbed configuration with delta-camber_t[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 7.4374e-06) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 4.4772e-07) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 2.1999e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(camber_t) check complete with 0 total errors (errmax= 7.4161e-06) d(Edge)/d(camber_t) check complete with 0 total errors (errmax= 4.4772e-07) d(Node)/d(camber_t) check complete with 0 total errors (errmax= 2.1999e-08) ********************************************************* Starting tessellation sensitivity wrt "dxwing" ********************************************************* Generating perturbed configuration with delta-dxwing[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 7.9732e-17) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.2499e-15) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 2.0040e-15) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 6.232 sec Sensitivity checks complete with 0 total errors (max tess err= 4.6642e-05) with 0 suppressions real 0m20.940s user 0m20.729s sys 0m0.556s ++ set +x -------------------------------------------------------------------------------------------------- ( 117 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 6.1810e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.6234e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1527e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.0103e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.3340e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.1851e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6445e-06) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5239e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.3521e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4688e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6599e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.4727e-06) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4933e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.0868e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7802e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7841e-11) ********************************************************* Starting tessellation sensitivity wrt "tiprad" ********************************************************* Generating perturbed configuration with delta-tiprad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.0011e-16) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 1.5019e-15) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 8.8818e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 13.553 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6755e-06) with 28 suppressions real 0m29.628s user 0m29.179s sys 0m0.449s ++ set +x -------------------------------------------------------------------------------------------------- ( 118 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG6.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 6.1810e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.6234e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1527e-06) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 6.1735e-08) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.6234e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1527e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.0103e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.3340e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 1.0149e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.3340e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4135e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.1851e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6445e-06) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 1.1906e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 1.6445e-06) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6755e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5239e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.3521e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4688e-08) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 3.5443e-09) d(Edge)/d(twist) check complete with 0 total errors (errmax= 6.3521e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4688e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6599e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.4727e-06) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4933e-06) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 4.6676e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 1.4727e-06) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4933e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.0868e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7802e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7841e-11) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 2.0875e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7802e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7841e-11) ********************************************************* Starting tessellation sensitivity wrt "tiprad" ********************************************************* Generating perturbed configuration with delta-tiprad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.0011e-16) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 1.5019e-15) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 8.8818e-16) Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.3417e-16) d(Edge)/d(tiprad) check complete with 0 total errors (errmax= 1.8696e-15) d(Node)/d(tiprad) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "dxwing" ********************************************************* Generating perturbed configuration with delta-dxwing[1,1]= 0.00500000 Computing analytic sensitivities (if possible) 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 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.0011e-16) 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 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 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.1682e-15) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 2.1232e-15) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 25.301 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6755e-06) with 64 suppressions real 0m48.555s user 0m48.023s sys 0m0.649s ++ set +x -------------------------------------------------------------------------------------------------- ( 119 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG7.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(area) check complete with 0 total errors (errmax= 8.5179e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.2398e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1518e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.7882e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.3319e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4130e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(taper) check complete with 0 total errors (errmax= 5.2332e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1412e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6750e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.6977e-08) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5414e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.3085e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.1885e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.8306e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "tiprad" ********************************************************* Generating perturbed configuration with delta-tiprad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.4979e-15) 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 ocsmGetTessVel -> 12.780 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6750e-06) with 0 suppressions real 0m25.534s user 0m23.259s sys 0m0.417s ++ set +x -------------------------------------------------------------------------------------------------- ( 120 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG8.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(area) check complete with 0 total errors (errmax= 8.5179e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.2398e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1518e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(area) check complete with 0 total errors (errmax= 8.5179e-07) d(Edge)/d(area) check complete with 0 total errors (errmax= 9.2398e-07) d(Node)/d(area) check complete with 0 total errors (errmax= 1.1518e-06) ********************************************************* Starting tessellation sensitivity wrt "aspect" ********************************************************* Generating perturbed configuration with delta-aspect[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.7882e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.3319e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4130e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(aspect) check complete with 0 total errors (errmax= 5.7882e-07) d(Edge)/d(aspect) check complete with 0 total errors (errmax= 9.3319e-07) d(Node)/d(aspect) check complete with 0 total errors (errmax= 1.4130e-06) ********************************************************* Starting tessellation sensitivity wrt "taper" ********************************************************* Generating perturbed configuration with delta-taper[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(taper) check complete with 0 total errors (errmax= 5.2332e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1412e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6750e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(taper) check complete with 0 total errors (errmax= 5.2332e-07) d(Edge)/d(taper) check complete with 0 total errors (errmax= 9.1412e-07) d(Node)/d(taper) check complete with 0 total errors (errmax= 1.6750e-06) ********************************************************* Starting tessellation sensitivity wrt "twist" ********************************************************* Generating perturbed configuration with delta-twist[1,1]= 0.01500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.6977e-08) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5414e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(twist) check complete with 0 total errors (errmax= 1.6977e-08) d(Edge)/d(twist) check complete with 0 total errors (errmax= 3.5414e-08) d(Node)/d(twist) check complete with 0 total errors (errmax= 6.4619e-08) ********************************************************* Starting tessellation sensitivity wrt "lesweep" ********************************************************* Generating perturbed configuration with delta-lesweep[1,1]= 0.03000000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.3085e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.1885e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(lesweep) check complete with 0 total errors (errmax= 5.3085e-07) d(Edge)/d(lesweep) check complete with 0 total errors (errmax= 8.1885e-07) d(Node)/d(lesweep) check complete with 0 total errors (errmax= 1.4932e-06) ********************************************************* Starting tessellation sensitivity wrt "dihedral" ********************************************************* Generating perturbed configuration with delta-dihedral[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.8306e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) Computing analytic sensitivities (if possible) for ibody=19 Computing distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dihedral) check complete with 0 total errors (errmax= 4.8306e-11) d(Edge)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) d(Node)/d(dihedral) check complete with 0 total errors (errmax= 3.7622e-11) ********************************************************* Starting tessellation sensitivity wrt "tiprad" ********************************************************* Generating perturbed configuration with delta-tiprad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 1.4979e-15) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(tiprad) check complete with 0 total errors (errmax= 2.1427e-15) 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 tessellation sensitivity wrt "dxwing" ********************************************************* Generating perturbed configuration with delta-dxwing[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=17 Computing distances of perturbed points from perturbed configuration for ibody=17 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.6372e-16) 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 distances of perturbed points from perturbed configuration for ibody=19 d(Face)/d(dxwing) check complete with 0 total errors (errmax= 1.8707e-15) d(Edge)/d(dxwing) check complete with 0 total errors (errmax= 1.6616e-15) d(Node)/d(dxwing) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 24.575 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6750e-06) with 0 suppressions real 0m46.927s user 0m42.410s sys 0m0.576s ++ set +x -------------------------------------------------------------------------------------------------- ( 121 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designG9.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(rad) check complete with 0 total errors (errmax= 4.2239e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.2239e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 9.8608e-32) ********************************************************* Starting tessellation sensitivity wrt "len" ********************************************************* Generating perturbed configuration with delta-len[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(len) check complete with 0 total errors (errmax= 4.8541e-16) d(Edge)/d(len) check complete with 0 total errors (errmax= 2.2461e-16) d(Node)/d(len) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "bump" ********************************************************* Generating perturbed configuration with delta-bump[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(bump) check complete with 0 total errors (errmax= 4.7249e-16) 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 ocsmGetTessVel -> 3.550 sec Sensitivity checks complete with 0 total errors (max tess err= 4.2239e-07) with 0 suppressions real 0m9.480s user 0m11.249s sys 0m0.162s ++ set +x -------------------------------------------------------------------------------------------------- ( 122 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designGA.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(x1) check complete with 0 total errors (errmax= 1.1725e-15) d(Edge)/d(x1) check complete with 0 total errors (errmax= 9.4703e-16) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(x2) check complete with 0 total errors (errmax= 4.2480e-16) d(Edge)/d(x2) check complete with 0 total errors (errmax= 3.7606e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(x3) check complete with 0 total errors (errmax= 4.4259e-16) d(Edge)/d(x3) check complete with 0 total errors (errmax= 5.6173e-16) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.6858e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.6858e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.9304e-32) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.438 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6858e-07) with 0 suppressions real 0m2.164s user 0m1.744s sys 0m0.165s ++ set +x -------------------------------------------------------------------------------------------------- ( 123 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designGB.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(x1) check complete with 0 total errors (errmax= 8.9910e-16) d(Edge)/d(x1) check complete with 0 total errors (errmax= 8.7795e-12) d(Node)/d(x1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(x2) check complete with 0 total errors (errmax= 2.4606e-09) d(Edge)/d(x2) check complete with 0 total errors (errmax= 3.6654e-09) d(Node)/d(x2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(x3) check complete with 0 total errors (errmax= 9.2592e-10) d(Edge)/d(x3) check complete with 0 total errors (errmax= 4.8859e-10) d(Node)/d(x3) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(rad) check complete with 0 total errors (errmax= 1.8025e-07) d(Edge)/d(rad) check complete with 0 total errors (errmax= 1.8874e-07) d(Node)/d(rad) check complete with 0 total errors (errmax= 4.9304e-32) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.569 sec Sensitivity checks complete with 0 total errors (max tess err= 1.8874e-07) with 0 suppressions real 0m4.751s user 0m5.302s sys 0m6.478s ++ set +x -------------------------------------------------------------------------------------------------- ( 124 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X" ********************************************************* Generating perturbed configuration with delta-X[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(X) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Y" ********************************************************* Generating perturbed configuration with delta-Y[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z" ********************************************************* Generating perturbed configuration with delta-Z[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 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= 0.0000e+00) d(Node)/d(Z) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.057 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m0.721s user 0m0.442s sys 0m0.312s ++ set +x -------------------------------------------------------------------------------------------------- ( 125 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X" ********************************************************* Generating perturbed configuration with delta-X[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(X) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Y" ********************************************************* Generating perturbed configuration with delta-Y[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z" ********************************************************* Generating perturbed configuration with delta-Z[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 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= 0.0000e+00) d(Node)/d(Z) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.146 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions ================================================================= ==2896929==ERROR: LeakSanitizer: detected memory leaks Direct leak of 192 byte(s) in 3 object(s) allocated from: #0 0x7f2971ab4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f2971130978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f2970da5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f2971751e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f297173fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f297168b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x5596be9ef3d1 in checkTessSens /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:1172 #7 0x5596be9e8c58 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:452 #8 0x7f2970829d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 64 byte(s) in 1 object(s) allocated from: #0 0x7f2971ab4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f2971130978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f2970da5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f2971751e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f297173fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f297168b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x5596be9e7d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7f2970829d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 256 byte(s) leaked in 4 allocation(s). real 0m1.392s user 0m1.074s sys 0m0.250s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 126 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "Y" ********************************************************* Generating perturbed configuration with delta-Y[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 WARNING:: dxyz mismatch: inode= 3 ( 0.000000 1.000000 0.000000) ibeg = 11 ( 0.000000 0.000000 0.000000) err=( 0.000000 -1.000000 0.000000) WARNING:: dxyz mismatch: inode= 7 ( 0.000000 1.000000 0.000000) iend = 9 ( 0.000000 0.000000 0.000000) err=( 0.000000 -1.000000 0.000000) WARNING:: dxyz mismatch: inode= 7 ( 0.000000 1.000000 0.000000) ibeg = 15 ( 0.000000 0.000000 0.000000) err=( 0.000000 -1.000000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 1.000000 0.000000) ibeg = 9 ( 0.000000 0.000000 0.000000) err=( 0.000000 -1.000000 0.000000) WARNING:: dxyz mismatch: inode= 9 ( 0.000000 0.000000 0.000000) ibeg = 17 ( 0.000000 1.000000 0.000000) err=( 0.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 9 ( 0.000000 0.000000 0.000000) ibeg = 28 ( 0.000000 1.000000 0.000000) err=( 0.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 11 ( 0.000000 0.000000 0.000000) ibeg = 25 ( 0.000000 1.000000 0.000000) err=( 0.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 11 ( 0.000000 0.000000 0.000000) iend = 35 ( 0.000000 1.000000 0.000000) err=( 0.000000 1.000000 0.000000) Tests suppressed for ibody= 4, iface= 3 Tests suppressed for ibody= 4, iface= 6 Tests suppressed for ibody= 4, iface= 9 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 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Y) check complete with 0 total errors (errmax= 2.0000e-03) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.033 sec Sensitivity checks complete with 2 total errors (max tess err= 2.0000e-03) with 13 suppressions real 0m0.734s user 0m0.509s sys 0m0.232s ++ set +x -------------------------------------------------------------------------------------------------- ( 127 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designH4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "Y" ********************************************************* Generating perturbed configuration with delta-Y[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 WARNING:: dxyz mismatch: inode= 6 ( 0.000000 1.000000 0.000000) ibeg = 6 ( 0.000000 0.000000 0.000000) err=( 0.000000 -1.000000 0.000000) WARNING:: dxyz mismatch: inode= 7 ( 0.000000 1.000000 0.000000) iend = 6 ( 0.000000 0.000000 0.000000) err=( 0.000000 -1.000000 0.000000) Tests suppressed for ibody= 4, iface= 1 Tests suppressed for ibody= 4, iface= 6 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 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(Y) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z" ********************************************************* Generating perturbed configuration with delta-Z[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 WARNING:: dxyz mismatch: inode= 5 ( 0.000000 0.000000 1.000000) ibeg = 5 ( 0.000000 0.000000 0.000000) err=( 0.000000 0.000000 -1.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 1.000000) iend = 5 ( 0.000000 0.000000 0.000000) err=( 0.000000 0.000000 -1.000000) Tests suppressed for ibody= 4, iface= 1 Tests suppressed for ibody= 4, iface= 6 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 Computing distances of perturbed points from perturbed configuration for ibody=4 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= 0.0000e+00) d(Node)/d(Z) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.066 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 12 suppressions real 0m1.104s user 0m0.791s sys 0m0.339s ++ set +x -------------------------------------------------------------------------------------------------- ( 128 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "XSIZE" ********************************************************* Generating perturbed configuration with delta-XSIZE[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 1.5649e-16) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 1.6312e-16) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YSIZE" ********************************************************* Generating perturbed configuration with delta-YSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ZSIZE" ********************************************************* Generating perturbed configuration with delta-ZSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "RAD" ********************************************************* Generating perturbed configuration with delta-RAD[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(RAD) check complete with 0 total errors (errmax= 5.5649e-17) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 1.8446e-17) d(Node)/d(RAD) check complete with 0 total errors (errmax= 4.6017e-20) ********************************************************* Starting tessellation sensitivity wrt "ROUND" ********************************************************* Generating perturbed configuration with delta-ROUND[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ROUND) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "SCALE" ********************************************************* Generating perturbed configuration with delta-SCALE[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 2.2958e-16) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.2560e-16) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 2.2377e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.121 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m1.640s user 0m1.158s sys 0m0.243s ++ set +x -------------------------------------------------------------------------------------------------- ( 129 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "XSIZE" ********************************************************* Generating perturbed configuration with delta-XSIZE[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 2.5634e-16) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 2.5606e-16) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "YSIZE" ********************************************************* Generating perturbed configuration with delta-YSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ZSIZE" ********************************************************* Generating perturbed configuration with delta-ZSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 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= 2.0981e-20) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "RAD" ********************************************************* Generating perturbed configuration with delta-RAD[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(RAD) check complete with 0 total errors (errmax= 5.5649e-17) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 1.8446e-17) d(Node)/d(RAD) check complete with 0 total errors (errmax= 4.6017e-20) ********************************************************* Starting tessellation sensitivity wrt "ROUND" ********************************************************* Generating perturbed configuration with delta-ROUND[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ROUND) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "SCALE" ********************************************************* Generating perturbed configuration with delta-SCALE[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 2.5728e-16) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.5772e-16) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 2.7756e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.165 sec Sensitivity checks complete with 0 total errors (max tess err= 2.5773e-16) with 0 suppressions real 0m1.748s user 0m1.290s sys 0m0.401s ++ set +x -------------------------------------------------------------------------------------------------- ( 130 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "XSIZE" ********************************************************* Generating perturbed configuration with delta-XSIZE[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 4.9170e-16) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 4.9255e-16) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YSIZE" ********************************************************* Generating perturbed configuration with delta-YSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ZSIZE" ********************************************************* Generating perturbed configuration with delta-ZSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "RAD" ********************************************************* Generating perturbed configuration with delta-RAD[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(RAD) check complete with 0 total errors (errmax= 5.5649e-17) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 1.8446e-17) d(Node)/d(RAD) check complete with 0 total errors (errmax= 4.6017e-20) ********************************************************* Starting tessellation sensitivity wrt "SCALE" ********************************************************* Generating perturbed configuration with delta-SCALE[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.9058e-16) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 4.8695e-16) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 2.2377e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.121 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m1.519s user 0m1.170s sys 0m0.405s ++ set +x -------------------------------------------------------------------------------------------------- ( 131 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designI4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "XSIZE" ********************************************************* Generating perturbed configuration with delta-XSIZE[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 1.5649e-16) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 1.6312e-16) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 2.5634e-16) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 2.5606e-16) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 2.2204e-16) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(XSIZE) check complete with 0 total errors (errmax= 4.9170e-16) d(Edge)/d(XSIZE) check complete with 0 total errors (errmax= 4.9255e-16) d(Node)/d(XSIZE) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YSIZE" ********************************************************* Generating perturbed configuration with delta-YSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(YSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "ZSIZE" ********************************************************* Generating perturbed configuration with delta-ZSIZE[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(ZSIZE) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 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= 2.0981e-20) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "RAD" ********************************************************* Generating perturbed configuration with delta-RAD[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(RAD) check complete with 0 total errors (errmax= 5.5649e-17) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 1.8446e-17) d(Node)/d(RAD) check complete with 0 total errors (errmax= 4.6017e-20) Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(RAD) check complete with 0 total errors (errmax= 5.5649e-17) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 1.8446e-17) d(Node)/d(RAD) check complete with 0 total errors (errmax= 4.6017e-20) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(RAD) check complete with 0 total errors (errmax= 5.5649e-17) d(Edge)/d(RAD) check complete with 0 total errors (errmax= 1.8446e-17) d(Node)/d(RAD) check complete with 0 total errors (errmax= 4.6017e-20) ********************************************************* Starting tessellation sensitivity wrt "SCALE" ********************************************************* Generating perturbed configuration with delta-SCALE[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 2.2958e-16) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.2560e-16) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 2.2377e-16) Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 2.5728e-16) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 2.5772e-16) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 2.7756e-17) Computing analytic sensitivities (if possible) for ibody=13 Computing distances of perturbed points from perturbed configuration for ibody=13 d(Face)/d(SCALE) check complete with 0 total errors (errmax= 4.9058e-16) d(Edge)/d(SCALE) check complete with 0 total errors (errmax= 4.8695e-16) d(Node)/d(SCALE) check complete with 0 total errors (errmax= 2.2377e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.381 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m3.803s user 0m3.335s sys 0m0.609s ++ set +x -------------------------------------------------------------------------------------------------- ( 132 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Edge)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.3047e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.3260e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.021 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3261e-16) with 0 suppressions real 0m0.243s user 0m0.241s sys 0m0.055s ++ set +x -------------------------------------------------------------------------------------------------- ( 133 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 7.9125e-17) d(Edge)/d(DX) check complete with 0 total errors (errmax= 7.9125e-17) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.3047e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.3260e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.025 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3261e-16) with 0 suppressions real 0m0.342s user 0m0.219s sys 0m0.087s ++ set +x -------------------------------------------------------------------------------------------------- ( 134 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Edge)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max tess err= 9.2793e-17) with 0 suppressions real 0m0.133s user 0m0.080s sys 0m0.055s ++ set +x -------------------------------------------------------------------------------------------------- ( 135 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ1d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.6919e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 4.9651e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 4.9651e-16) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.8780e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.5151e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 1.5026e-16) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.007 sec Sensitivity checks complete with 0 total errors (max tess err= 4.9652e-16) with 0 suppressions real 0m0.263s user 0m0.112s sys 0m0.075s ++ set +x -------------------------------------------------------------------------------------------------- ( 136 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ2a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.1327e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.2933e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.3172e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.3117e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.3369e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.2049e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.272 sec Sensitivity checks complete with 0 total errors (max tess err= 2.2934e-16) with 0 suppressions real 0m0.946s user 0m0.881s sys 0m0.189s ++ set +x -------------------------------------------------------------------------------------------------- ( 137 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ2b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.3815e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1466e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.3172e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.3117e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.3369e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.2049e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.288 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3816e-16) with 0 suppressions real 0m1.107s user 0m0.971s sys 0m0.120s ++ set +x -------------------------------------------------------------------------------------------------- ( 138 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ3a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.1327e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.2933e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.3172e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.3117e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.3369e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.2049e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.302 sec Sensitivity checks complete with 0 total errors (max tess err= 2.2934e-16) with 0 suppressions real 0m1.006s user 0m0.914s sys 0m0.143s ++ set +x -------------------------------------------------------------------------------------------------- ( 139 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ3b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.3815e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1466e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.3172e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.3117e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.3369e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 3.2049e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.336 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3816e-16) with 0 suppressions real 0m1.167s user 0m1.010s sys 0m0.144s ++ set +x -------------------------------------------------------------------------------------------------- ( 140 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ4a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "XBEG" ********************************************************* Generating perturbed configuration with delta-XBEG[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(XBEG) check complete with 0 total errors (errmax= 7.7035e-17) d(Edge)/d(XBEG) check complete with 0 total errors (errmax= 6.1812e-17) d(Node)/d(XBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YBEG" ********************************************************* Generating perturbed configuration with delta-YBEG[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(YBEG) check complete with 0 total errors (errmax= 5.2173e-17) d(Edge)/d(YBEG) check complete with 0 total errors (errmax= 6.5375e-17) d(Node)/d(YBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ZBEG" ********************************************************* Generating perturbed configuration with delta-ZBEG[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ZBEG) check complete with 0 total errors (errmax= 3.1158e-17) d(Edge)/d(ZBEG) check complete with 0 total errors (errmax= 2.8773e-17) d(Node)/d(ZBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "XEND" ********************************************************* Generating perturbed configuration with delta-XEND[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(XEND) check complete with 0 total errors (errmax= 4.4034e-16) d(Edge)/d(XEND) check complete with 0 total errors (errmax= 3.7311e-16) d(Node)/d(XEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YEND" ********************************************************* Generating perturbed configuration with delta-YEND[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(YEND) check complete with 0 total errors (errmax= 7.2120e-17) d(Edge)/d(YEND) check complete with 0 total errors (errmax= 7.3763e-17) d(Node)/d(YEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ZEND" ********************************************************* Generating perturbed configuration with delta-ZEND[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ZEND) check complete with 0 total errors (errmax= 3.4389e-17) d(Edge)/d(ZEND) check complete with 0 total errors (errmax= 3.2516e-17) d(Node)/d(ZEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 2.9167e-16) d(Edge)/d(DX) check complete with 0 total errors (errmax= 2.2933e-16) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.0445e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 5.0977e-17) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 4.6915e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.078 sec Sensitivity checks complete with 0 total errors (max tess err= 4.4035e-16) with 0 suppressions real 0m3.068s user 0m2.460s sys 0m0.248s ++ set +x -------------------------------------------------------------------------------------------------- ( 141 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ4b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "XBEG" ********************************************************* Generating perturbed configuration with delta-XBEG[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(XBEG) check complete with 0 total errors (errmax= 8.2053e-08) d(Edge)/d(XBEG) check complete with 0 total errors (errmax= 9.0159e-08) d(Node)/d(XBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YBEG" ********************************************************* Generating perturbed configuration with delta-YBEG[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(YBEG) check complete with 0 total errors (errmax= 2.5496e-08) d(Edge)/d(YBEG) check complete with 0 total errors (errmax= 2.2502e-08) d(Node)/d(YBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ZBEG" ********************************************************* Generating perturbed configuration with delta-ZBEG[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ZBEG) check complete with 0 total errors (errmax= 3.8444e-08) d(Edge)/d(ZBEG) check complete with 0 total errors (errmax= 3.3941e-08) d(Node)/d(ZBEG) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "XEND" ********************************************************* Generating perturbed configuration with delta-XEND[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(XEND) check complete with 0 total errors (errmax= 1.3153e-06) d(Edge)/d(XEND) check complete with 0 total errors (errmax= 1.4402e-06) d(Node)/d(XEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "YEND" ********************************************************* Generating perturbed configuration with delta-YEND[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(YEND) check complete with 0 total errors (errmax= 2.5491e-08) d(Edge)/d(YEND) check complete with 0 total errors (errmax= 2.2502e-08) d(Node)/d(YEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "ZEND" ********************************************************* Generating perturbed configuration with delta-ZEND[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(ZEND) check complete with 0 total errors (errmax= 3.8438e-08) d(Edge)/d(ZEND) check complete with 0 total errors (errmax= 3.3941e-08) d(Node)/d(ZEND) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DX) check complete with 0 total errors (errmax= 1.0922e-06) d(Edge)/d(DX) check complete with 0 total errors (errmax= 1.1659e-06) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.2705e-07) d(Edge)/d(DY) check complete with 0 total errors (errmax= 1.0881e-07) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.7771e-08) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.4160e-08) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.029 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4402e-06) with 0 suppressions real 0m3.178s user 0m3.051s sys 0m0.241s ++ set +x -------------------------------------------------------------------------------------------------- ( 142 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designJ5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "DX" ********************************************************* Generating perturbed configuration with delta-DX[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Edge)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=23 Computing distances of perturbed points from perturbed configuration for ibody=23 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 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= 0.0000e+00) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=28 Computing distances of perturbed points from perturbed configuration for ibody=28 d(Face)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Edge)/d(DX) check complete with 0 total errors (errmax= 9.2783e-17) d(Node)/d(DX) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY" ********************************************************* Generating perturbed configuration with delta-DY[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=23 Computing distances of perturbed points from perturbed configuration for ibody=23 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.4691e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(DY) check complete with 0 total errors (errmax= 1.4691e-16) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=28 Computing distances of perturbed points from perturbed configuration for ibody=28 d(Face)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Edge)/d(DY) check complete with 0 total errors (errmax= 4.4865e-17) d(Node)/d(DY) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ" ********************************************************* Generating perturbed configuration with delta-DZ[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=23 Computing distances of perturbed points from perturbed configuration for ibody=23 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.4333e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.1499e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=26 Computing distances of perturbed points from perturbed configuration for ibody=26 d(Face)/d(DZ) check complete with 0 total errors (errmax= 1.4333e-16) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.1499e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=28 Computing distances of perturbed points from perturbed configuration for ibody=28 d(Face)/d(DZ) check complete with 0 total errors (errmax= 2.1499e-17) d(Edge)/d(DZ) check complete with 0 total errors (errmax= 2.1499e-17) d(Node)/d(DZ) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.106 sec Sensitivity checks complete with 0 total errors (max tess err= 1.4692e-16) with 0 suppressions real 0m1.115s user 0m1.132s sys 0m0.278s ++ set +x -------------------------------------------------------------------------------------------------- ( 143 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designK0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L0" ********************************************************* Generating perturbed configuration with delta-L0[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H0" ********************************************************* Generating perturbed configuration with delta-H0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H0) check complete with 0 total errors (errmax= 1.2659e-06) d(Edge)/d(H0) check complete with 0 total errors (errmax= 3.4063e-06) d(Node)/d(H0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D0" ********************************************************* Generating perturbed configuration with delta-D0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D0) check complete with 0 total errors (errmax= 2.6146e-17) d(Edge)/d(D0) check complete with 0 total errors (errmax= 2.5050e-17) d(Node)/d(D0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00180000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X0) check complete with 0 total errors (errmax= 8.8043e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.8661e-06) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 5.3215e-06) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.3146e-07) ********************************************************* Starting tessellation sensitivity wrt "R0" ********************************************************* Generating perturbed configuration with delta-R0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R0) check complete with 0 total errors (errmax= 1.8661e-06) d(Edge)/d(R0) check complete with 0 total errors (errmax= 5.3215e-06) d(Node)/d(R0) check complete with 0 total errors (errmax= 2.1241e-08) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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 tessellation sensitivity wrt "Y1" ********************************************************* Generating perturbed configuration with delta-Y1[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y1) check complete with 0 total errors (errmax= 1.3314e-16) d(Edge)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W1" ********************************************************* Generating perturbed configuration with delta-W1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H1" ********************************************************* Generating perturbed configuration with delta-H1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H1) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Y2" ********************************************************* Generating perturbed configuration with delta-Y2[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y2) check complete with 0 total errors (errmax= 1.3314e-16) d(Edge)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W2" ********************************************************* Generating perturbed configuration with delta-W2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) d(Edge)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "H2" ********************************************************* Generating perturbed configuration with delta-H2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H2) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "R3" ********************************************************* Generating perturbed configuration with delta-R3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R3) check complete with 0 total errors (errmax= 1.2861e-16) d(Edge)/d(R3) check complete with 0 total errors (errmax= 1.2820e-16) d(Node)/d(R3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "X4" ********************************************************* Generating perturbed configuration with delta-X4[1,1]= 0.00380000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X4) check complete with 0 total errors (errmax= 2.5929e-09) 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 tessellation sensitivity wrt "Y4" ********************************************************* Generating perturbed configuration with delta-Y4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y4) check complete with 0 total errors (errmax= 4.7571e-07) d(Edge)/d(Y4) check complete with 0 total errors (errmax= 1.4196e-06) d(Node)/d(Y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "R4" ********************************************************* Generating perturbed configuration with delta-R4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R4) check complete with 0 total errors (errmax= 2.4814e-16) d(Edge)/d(R4) check complete with 0 total errors (errmax= 2.4990e-16) d(Node)/d(R4) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.878 sec Sensitivity checks complete with 0 total errors (max tess err= 5.3215e-06) with 0 suppressions real 0m17.946s user 0m17.574s sys 0m1.163s ++ set +x -------------------------------------------------------------------------------------------------- ( 144 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designK1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L0" ********************************************************* Generating perturbed configuration with delta-L0[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L0) check complete with 0 total errors (errmax= 3.9252e-17) d(Node)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H0" ********************************************************* Generating perturbed configuration with delta-H0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H0) check complete with 0 total errors (errmax= 1.2659e-06) d(Edge)/d(H0) check complete with 0 total errors (errmax= 3.4063e-06) d(Node)/d(H0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D0" ********************************************************* Generating perturbed configuration with delta-D0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D0) check complete with 0 total errors (errmax= 4.3982e-17) d(Edge)/d(D0) check complete with 0 total errors (errmax= 2.5050e-17) d(Node)/d(D0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00180000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X0) check complete with 0 total errors (errmax= 8.8043e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.8661e-06) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 5.3215e-06) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.3146e-07) ********************************************************* Starting tessellation sensitivity wrt "R0" ********************************************************* Generating perturbed configuration with delta-R0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R0) check complete with 0 total errors (errmax= 1.8661e-06) d(Edge)/d(R0) check complete with 0 total errors (errmax= 5.3215e-06) d(Node)/d(R0) check complete with 0 total errors (errmax= 2.1241e-08) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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 tessellation sensitivity wrt "Y1" ********************************************************* Generating perturbed configuration with delta-Y1[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W1" ********************************************************* Generating perturbed configuration with delta-W1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H1" ********************************************************* Generating perturbed configuration with delta-H1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Y2" ********************************************************* Generating perturbed configuration with delta-Y2[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W2" ********************************************************* Generating perturbed configuration with delta-W2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) d(Edge)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "H2" ********************************************************* Generating perturbed configuration with delta-H2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "R3" ********************************************************* Generating perturbed configuration with delta-R3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R3) check complete with 0 total errors (errmax= 1.2861e-16) d(Edge)/d(R3) check complete with 0 total errors (errmax= 1.2820e-16) d(Node)/d(R3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "X4" ********************************************************* Generating perturbed configuration with delta-X4[1,1]= 0.00380000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X4) check complete with 0 total errors (errmax= 2.5929e-09) 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 tessellation sensitivity wrt "Y4" ********************************************************* Generating perturbed configuration with delta-Y4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y4) check complete with 0 total errors (errmax= 4.7571e-07) d(Edge)/d(Y4) check complete with 0 total errors (errmax= 1.4196e-06) d(Node)/d(Y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "R4" ********************************************************* Generating perturbed configuration with delta-R4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R4) check complete with 0 total errors (errmax= 2.4814e-16) d(Edge)/d(R4) check complete with 0 total errors (errmax= 2.4990e-16) d(Node)/d(R4) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.328 sec Sensitivity checks complete with 0 total errors (max tess err= 5.3215e-06) with 0 suppressions real 0m21.724s user 0m19.629s sys 0m1.299s ++ set +x -------------------------------------------------------------------------------------------------- ( 145 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designK2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L0" ********************************************************* Generating perturbed configuration with delta-L0[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(L0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H0" ********************************************************* Generating perturbed configuration with delta-H0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H0) check complete with 0 total errors (errmax= 1.2659e-06) d(Edge)/d(H0) check complete with 0 total errors (errmax= 3.4063e-06) d(Node)/d(H0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D0" ********************************************************* Generating perturbed configuration with delta-D0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D0) check complete with 0 total errors (errmax= 3.8971e-17) d(Edge)/d(D0) check complete with 0 total errors (errmax= 2.5050e-17) d(Node)/d(D0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00180000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X0) check complete with 0 total errors (errmax= 8.8043e-09) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.8661e-06) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 5.3215e-06) d(Node)/d(Y0) check complete with 0 total errors (errmax= 5.3146e-07) ********************************************************* Starting tessellation sensitivity wrt "R0" ********************************************************* Generating perturbed configuration with delta-R0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R0) check complete with 0 total errors (errmax= 1.8661e-06) d(Edge)/d(R0) check complete with 0 total errors (errmax= 5.3215e-06) d(Node)/d(R0) check complete with 0 total errors (errmax= 2.1241e-08) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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 tessellation sensitivity wrt "Y1" ********************************************************* Generating perturbed configuration with delta-Y1[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Y1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W1" ********************************************************* Generating perturbed configuration with delta-W1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(W1) check complete with 0 total errors (errmax= 7.4180e-18) d(Node)/d(W1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H1" ********************************************************* Generating perturbed configuration with delta-H1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(H1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "Y2" ********************************************************* Generating perturbed configuration with delta-Y2[1,1]= 0.00120000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(Y2) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "W2" ********************************************************* Generating perturbed configuration with delta-W2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) d(Edge)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(W2) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "H2" ********************************************************* Generating perturbed configuration with delta-H2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(H2) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "R3" ********************************************************* Generating perturbed configuration with delta-R3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R3) check complete with 0 total errors (errmax= 1.2861e-16) d(Edge)/d(R3) check complete with 0 total errors (errmax= 1.2820e-16) d(Node)/d(R3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "X4" ********************************************************* Generating perturbed configuration with delta-X4[1,1]= 0.00380000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(X4) check complete with 0 total errors (errmax= 1.4595e-09) 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 tessellation sensitivity wrt "Y4" ********************************************************* Generating perturbed configuration with delta-Y4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(Y4) check complete with 0 total errors (errmax= 3.9661e-07) d(Edge)/d(Y4) check complete with 0 total errors (errmax= 1.4196e-06) d(Node)/d(Y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "R4" ********************************************************* Generating perturbed configuration with delta-R4[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(R4) check complete with 0 total errors (errmax= 4.1033e-12) d(Edge)/d(R4) check complete with 0 total errors (errmax= 2.4990e-16) d(Node)/d(R4) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 6.267 sec Sensitivity checks complete with 0 total errors (max tess err= 5.3215e-06) with 0 suppressions real 1m19.546s user 1m10.145s sys 0m2.194s ++ set +x -------------------------------------------------------------------------------------------------- ( 146 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL00.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 6.7230e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.143 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m1.657s user 0m1.687s sys 0m0.249s ++ set +x -------------------------------------------------------------------------------------------------- ( 147 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL01.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 6.7230e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.186 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m2.201s user 0m1.990s sys 0m0.476s ++ set +x -------------------------------------------------------------------------------------------------- ( 148 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL10.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.194 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m2.218s user 0m1.908s sys 0m0.360s ++ set +x -------------------------------------------------------------------------------------------------- ( 149 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL11.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.9694e-15) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 7.6218e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 6.8014e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 5.0043e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 4.3277e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zsize) check complete with 0 total errors (errmax= 8.2257e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 7.5065e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.1445e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.3156e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.682 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m4.150s user 0m3.703s sys 0m0.422s ++ set +x -------------------------------------------------------------------------------------------------- ( 150 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL12.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.9694e-15) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 7.6218e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 6.8014e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 5.0043e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 4.3277e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zsize) check complete with 0 total errors (errmax= 8.2257e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 7.5065e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.1445e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.3156e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.602 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m3.851s user 0m3.405s sys 0m0.539s ++ set +x -------------------------------------------------------------------------------------------------- ( 151 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL20.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 2.3843e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 2.0443e-05) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.3412e-06) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.1499e-05) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.247 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m2.168s user 0m2.140s sys 0m0.404s ++ set +x -------------------------------------------------------------------------------------------------- ( 152 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL21.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.9694e-15) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 2.3843e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 2.0443e-05) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 6.8014e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 5.0043e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 4.3277e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.3412e-06) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.1499e-05) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(zsize) check complete with 0 total errors (errmax= 8.2257e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 7.5065e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.1445e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.3156e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.578 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m4.021s user 0m3.528s sys 0m0.435s ++ set +x -------------------------------------------------------------------------------------------------- ( 153 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL22.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 1.9694e-15) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 2.3843e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 2.0443e-05) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 6.8014e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 5.0043e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 4.3277e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(ysize) check complete with 0 total errors (errmax= 1.3412e-06) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.1499e-05) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(zsize) check complete with 0 total errors (errmax= 8.2257e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 7.5065e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.1445e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.3156e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration for ibody=15 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.675 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m3.698s user 0m3.635s sys 0m0.434s ++ set +x -------------------------------------------------------------------------------------------------- ( 154 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL30.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 6.7230e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.193 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m2.011s user 0m1.801s sys 0m0.358s ++ set +x -------------------------------------------------------------------------------------------------- ( 155 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL31.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5203e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.3050e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.2190e-13) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.4019e-15) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.8603e-15) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7294e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 7.3363e-08) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.1171e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2888e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2686e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.9012e-13) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.0869e-13) d(Edge)/d(diam) check complete with 0 total errors (errmax= 5.8575e-08) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4548e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.5729e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.453 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7294e-05) with 0 suppressions real 0m6.025s user 0m6.317s sys 0m0.657s ++ set +x -------------------------------------------------------------------------------------------------- ( 156 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL32.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5203e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.3050e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.2190e-13) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.4019e-15) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.8603e-15) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7294e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 7.3363e-08) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.1171e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2888e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2686e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.9012e-13) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.0869e-13) d(Edge)/d(diam) check complete with 0 total errors (errmax= 5.8575e-08) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4548e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.5729e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.409 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7294e-05) with 0 suppressions real 0m5.735s user 0m6.193s sys 0m0.540s ++ set +x -------------------------------------------------------------------------------------------------- ( 157 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL33.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5203e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.3050e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.2190e-13) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.4019e-15) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.8603e-15) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7294e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 7.3363e-08) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.1171e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2888e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2686e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.9012e-13) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.0869e-13) d(Edge)/d(diam) check complete with 0 total errors (errmax= 5.8575e-08) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4548e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.5729e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.368 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7294e-05) with 0 suppressions real 0m5.648s user 0m6.333s sys 0m1.113s ++ set +x -------------------------------------------------------------------------------------------------- ( 158 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL34.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5203e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.3050e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.2190e-13) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.4019e-15) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 1.8603e-15) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7294e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 7.3363e-08) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.1171e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2888e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.2686e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.9012e-13) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.0869e-13) d(Edge)/d(diam) check complete with 0 total errors (errmax= 5.8575e-08) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4548e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.5729e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.216 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7294e-05) with 0 suppressions real 0m4.724s user 0m5.895s sys 0m1.831s ++ set +x -------------------------------------------------------------------------------------------------- ( 159 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL40.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5207e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 6.7230e-16) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7322e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(ysize) check complete with 0 total errors (errmax= 7.6254e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2777e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4569e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 2.3019e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.163 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7322e-05) with 0 suppressions real 0m1.754s user 0m1.715s sys 0m0.322s ++ set +x -------------------------------------------------------------------------------------------------- ( 160 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL41.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5203e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.3049e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 8.9674e-13) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 1.9327e-15) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 4.9392e-13) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7294e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 7.3361e-08) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.1171e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2888e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.9144e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 6.8911e-13) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.7758e-12) d(Edge)/d(diam) check complete with 0 total errors (errmax= 5.8574e-08) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4548e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3828e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.160 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7294e-05) with 0 suppressions real 0m5.163s user 0m6.209s sys 0m1.281s ++ set +x -------------------------------------------------------------------------------------------------- ( 161 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designL42.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 1.5203e-06) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 6.3049e-08) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "ybeg" ********************************************************* Generating perturbed configuration with delta-ybeg[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(ybeg) check complete with 0 total errors (errmax= 1.2627e-06) d(Edge)/d(ybeg) check complete with 0 total errors (errmax= 1.8113e-13) d(Node)/d(ybeg) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "zbeg" ********************************************************* Generating perturbed configuration with delta-zbeg[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(zbeg) check complete with 0 total errors (errmax= 2.4028e-15) d(Edge)/d(zbeg) check complete with 0 total errors (errmax= 2.6518e-13) d(Node)/d(zbeg) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(xsize) check complete with 0 total errors (errmax= 9.7294e-05) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 7.3360e-08) d(Node)/d(xsize) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "ysize" ********************************************************* Generating perturbed configuration with delta-ysize[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(ysize) check complete with 0 total errors (errmax= 8.1171e-07) d(Edge)/d(ysize) check complete with 0 total errors (errmax= 1.2888e-06) d(Node)/d(ysize) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "zsize" ********************************************************* Generating perturbed configuration with delta-zsize[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(zsize) check complete with 0 total errors (errmax= 9.5467e-16) d(Edge)/d(zsize) check complete with 0 total errors (errmax= 2.6518e-13) d(Node)/d(zsize) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "diam" ********************************************************* Generating perturbed configuration with delta-diam[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(diam) check complete with 0 total errors (errmax= 2.7447e-12) d(Edge)/d(diam) check complete with 0 total errors (errmax= 5.8574e-08) d(Node)/d(diam) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=18 Computing distances of perturbed points from perturbed configuration for ibody=18 d(Face)/d(scale) check complete with 0 total errors (errmax= 7.4548e-05) d(Edge)/d(scale) check complete with 0 total errors (errmax= 4.3572e-15) d(Node)/d(scale) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.128 sec Sensitivity checks complete with 0 total errors (max tess err= 9.7294e-05) with 0 suppressions real 0m4.846s user 0m6.031s sys 0m1.424s ++ set +x -------------------------------------------------------------------------------------------------- ( 162 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "a" ********************************************************* Generating perturbed configuration with delta-a[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "b" ********************************************************* Generating perturbed configuration with delta-b[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "c" ********************************************************* Generating perturbed configuration with delta-c[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "d" ********************************************************* Generating perturbed configuration with delta-d[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "e" ********************************************************* Generating perturbed configuration with delta-e[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "f" ********************************************************* Generating perturbed configuration with delta-f[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "g" ********************************************************* Generating perturbed configuration with delta-g[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(g) check complete with 0 total errors (errmax= 5.7870e-16) d(Edge)/d(g) check complete with 0 total errors (errmax= 5.9581e-16) d(Node)/d(g) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "h" ********************************************************* Generating perturbed configuration with delta-h[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(h) check complete with 0 total errors (errmax= 4.5934e-16) d(Edge)/d(h) check complete with 0 total errors (errmax= 4.5641e-16) d(Node)/d(h) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.168 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m1.058s user 0m0.913s sys 0m0.245s ++ set +x -------------------------------------------------------------------------------------------------- ( 163 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "a" ********************************************************* Generating perturbed configuration with delta-a[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "b" ********************************************************* Generating perturbed configuration with delta-b[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "c" ********************************************************* Generating perturbed configuration with delta-c[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "d" ********************************************************* Generating perturbed configuration with delta-d[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "e" ********************************************************* Generating perturbed configuration with delta-e[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "f" ********************************************************* Generating perturbed configuration with delta-f[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "g" ********************************************************* Generating perturbed configuration with delta-g[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(g) check complete with 0 total errors (errmax= 5.7870e-16) d(Edge)/d(g) check complete with 0 total errors (errmax= 5.9581e-16) d(Node)/d(g) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "h" ********************************************************* Generating perturbed configuration with delta-h[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(h) check complete with 0 total errors (errmax= 4.5934e-16) d(Edge)/d(h) check complete with 0 total errors (errmax= 4.5641e-16) d(Node)/d(h) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.024 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m1.332s user 0m0.989s sys 0m0.272s ++ set +x -------------------------------------------------------------------------------------------------- ( 164 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "a" ********************************************************* Generating perturbed configuration with delta-a[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(a) check complete with 0 total errors (errmax= 1.4361e-16) d(Edge)/d(a) check complete with 0 total errors (errmax= 1.9537e-16) d(Node)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "b" ********************************************************* Generating perturbed configuration with delta-b[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "c" ********************************************************* Generating perturbed configuration with delta-c[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "d" ********************************************************* Generating perturbed configuration with delta-d[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "e" ********************************************************* Generating perturbed configuration with delta-e[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "f" ********************************************************* Generating perturbed configuration with delta-f[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(f) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(f) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "g" ********************************************************* Generating perturbed configuration with delta-g[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(g) check complete with 0 total errors (errmax= 5.7560e-16) d(Edge)/d(g) check complete with 0 total errors (errmax= 5.9581e-16) d(Node)/d(g) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "h" ********************************************************* Generating perturbed configuration with delta-h[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(h) check complete with 0 total errors (errmax= 4.4674e-16) d(Edge)/d(h) check complete with 0 total errors (errmax= 4.4588e-16) d(Node)/d(h) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.031 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m1.181s user 0m1.062s sys 0m0.262s ++ set +x -------------------------------------------------------------------------------------------------- ( 165 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "a" ********************************************************* Generating perturbed configuration with delta-a[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(a) check complete with 0 total errors (errmax= 6.8551e-16) d(Edge)/d(a) check complete with 0 total errors (errmax= 4.8250e-16) d(Node)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "b" ********************************************************* Generating perturbed configuration with delta-b[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(b) check complete with 0 total errors (errmax= 4.4611e-16) d(Edge)/d(b) check complete with 0 total errors (errmax= 4.4766e-16) d(Node)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "c" ********************************************************* Generating perturbed configuration with delta-c[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(c) check complete with 0 total errors (errmax= 6.3107e-16) d(Edge)/d(c) check complete with 0 total errors (errmax= 5.2303e-16) d(Node)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "d" ********************************************************* Generating perturbed configuration with delta-d[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(d) check complete with 0 total errors (errmax= 1.1980e-15) d(Edge)/d(d) check complete with 0 total errors (errmax= 1.0819e-15) d(Node)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "e" ********************************************************* Generating perturbed configuration with delta-e[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(e) check complete with 0 total errors (errmax= 3.3031e-16) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.7916e-16) d(Node)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "f" ********************************************************* Generating perturbed configuration with delta-f[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(f) check complete with 0 total errors (errmax= 6.2533e-16) d(Edge)/d(f) check complete with 0 total errors (errmax= 5.5260e-16) d(Node)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "g" ********************************************************* Generating perturbed configuration with delta-g[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(g) check complete with 0 total errors (errmax= 8.5748e-16) d(Edge)/d(g) check complete with 0 total errors (errmax= 7.0450e-16) d(Node)/d(g) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "h" ********************************************************* Generating perturbed configuration with delta-h[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(h) check complete with 0 total errors (errmax= 8.9356e-16) d(Edge)/d(h) check complete with 0 total errors (errmax= 7.6107e-16) d(Node)/d(h) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.465 sec Sensitivity checks complete with 0 total errors (max tess err= 1.1980e-15) with 0 suppressions real 0m3.659s user 0m3.600s sys 0m0.465s ++ set +x -------------------------------------------------------------------------------------------------- ( 166 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designM4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "a" ********************************************************* Generating perturbed configuration with delta-a[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(a) check complete with 0 total errors (errmax= 6.8551e-16) d(Edge)/d(a) check complete with 0 total errors (errmax= 4.8250e-16) d(Node)/d(a) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "b" ********************************************************* Generating perturbed configuration with delta-b[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(b) check complete with 0 total errors (errmax= 4.4611e-16) d(Edge)/d(b) check complete with 0 total errors (errmax= 4.4766e-16) d(Node)/d(b) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "c" ********************************************************* Generating perturbed configuration with delta-c[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(c) check complete with 0 total errors (errmax= 6.3107e-16) d(Edge)/d(c) check complete with 0 total errors (errmax= 5.2303e-16) d(Node)/d(c) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "d" ********************************************************* Generating perturbed configuration with delta-d[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(d) check complete with 0 total errors (errmax= 1.1980e-15) d(Edge)/d(d) check complete with 0 total errors (errmax= 1.0819e-15) d(Node)/d(d) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "e" ********************************************************* Generating perturbed configuration with delta-e[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(e) check complete with 0 total errors (errmax= 3.3031e-16) d(Edge)/d(e) check complete with 0 total errors (errmax= 2.7916e-16) d(Node)/d(e) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "f" ********************************************************* Generating perturbed configuration with delta-f[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(f) check complete with 0 total errors (errmax= 6.2533e-16) d(Edge)/d(f) check complete with 0 total errors (errmax= 5.5260e-16) d(Node)/d(f) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "g" ********************************************************* Generating perturbed configuration with delta-g[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(g) check complete with 0 total errors (errmax= 8.5748e-16) d(Edge)/d(g) check complete with 0 total errors (errmax= 7.0450e-16) d(Node)/d(g) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "h" ********************************************************* Generating perturbed configuration with delta-h[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(h) check complete with 0 total errors (errmax= 8.9356e-16) d(Edge)/d(h) check complete with 0 total errors (errmax= 7.6107e-16) d(Node)/d(h) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.469 sec Sensitivity checks complete with 0 total errors (max tess err= 1.1980e-15) with 0 suppressions real 0m3.650s user 0m3.690s sys 0m0.457s ++ set +x -------------------------------------------------------------------------------------------------- ( 167 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designN1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xsize" ********************************************************* Generating perturbed configuration with delta-xsize[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(xsize) check complete with 0 total errors (errmax= 2.9970e-06) d(Edge)/d(xsize) check complete with 0 total errors (errmax= 2.9970e-06) d(Node)/d(xsize) check complete with 0 total errors (errmax= 2.9970e-06) ********************************************************* Starting tessellation sensitivity wrt "frontArea" ********************************************************* Generating perturbed configuration with delta-frontArea[1,1]= 0.01200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(frontArea) check complete with 0 total errors (errmax= 1.9980e-06) d(Edge)/d(frontArea) check complete with 0 total errors (errmax= 1.9980e-06) d(Node)/d(frontArea) check complete with 0 total errors (errmax= 1.9980e-06) ********************************************************* Starting tessellation sensitivity wrt "volume" ********************************************************* Generating perturbed configuration with delta-volume[1,1]= 0.02400000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(volume) check complete with 0 total errors (errmax= 2.2204e-15) d(Edge)/d(volume) check complete with 0 total errors (errmax= 2.2204e-15) d(Node)/d(volume) check complete with 0 total errors (errmax= 2.2204e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max tess err= 2.9970e-06) with 0 suppressions real 0m0.281s user 0m0.142s sys 0m0.141s ++ set +x -------------------------------------------------------------------------------------------------- ( 168 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designN2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "area" ********************************************************* Generating perturbed configuration with delta-area[1,1]= 0.15079600 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(area) check complete with 0 total errors (errmax= 5.3895e-03) d(Edge)/d(area) check complete with 0 total errors (errmax= 5.5591e-03) d(Node)/d(area) check complete with 0 total errors (errmax= 5.5591e-03) ********************************************************* Starting tessellation sensitivity wrt "vol" ********************************************************* Generating perturbed configuration with delta-vol[1,1]= 0.14137200 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(vol) check complete with 0 total errors (errmax= 2.9484e-03) d(Edge)/d(vol) check complete with 0 total errors (errmax= 3.0407e-03) d(Node)/d(vol) check complete with 0 total errors (errmax= 3.0407e-03) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.003 sec Sensitivity checks complete with 26 total errors (max tess err= 5.5591e-03) with 0 suppressions real 0m0.385s user 0m0.373s sys 0m0.105s ++ set +x -------------------------------------------------------------------------------------------------- ( 169 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 2.5640e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 8.1670e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.4863e-16) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.4863e-16) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.8943e-16) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.0337e-16) d(Node)/d(DX2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 8.7325e-16) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.8943e-16) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.0744e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 5.3505e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 5.1544e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 4.0701e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 4.0701e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 7.5246e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.001 sec Sensitivity checks complete with 0 total errors (max tess err= 4.0702e-15) with 0 suppressions real 0m0.559s user 0m0.258s sys 0m0.242s ++ set +x -------------------------------------------------------------------------------------------------- ( 170 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 2.5640e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 8.1670e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.3840e-16) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 9.1731e-16) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 9.1731e-16) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.3840e-16) d(Node)/d(DX2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 9.1731e-16) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.8943e-16) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.9075e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 6.3809e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 9.4615e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 4.0701e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 4.0701e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 9.1731e-16) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.005 sec Sensitivity checks complete with 0 total errors (max tess err= 4.0702e-15) with 0 suppressions real 0m0.501s user 0m0.233s sys 0m0.235s ++ set +x -------------------------------------------------------------------------------------------------- ( 171 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 5.7604e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 1.3796e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 1.0711e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.7239e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.7238e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 4.3008e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 1.0895e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 1.0783e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.1665e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 2.2493e-08) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 1.9478e-08) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 5.9437e-07) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 3.3752e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 4.0701e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration 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= 1.9559e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.010 sec Sensitivity checks complete with 0 total errors (max tess err= 5.9437e-07) with 0 suppressions real 0m0.480s user 0m0.198s sys 0m0.277s ++ set +x -------------------------------------------------------------------------------------------------- ( 172 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP0d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 6.8995e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 1.3995e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 1.8067e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 4.4800e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 4.4800e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 2.3225e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 9.9512e-08) d(Node)/d(DX2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 9.9512e-08) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 4.4148e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 2.9039e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 2.4380e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 2.0797e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 3.1445e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 4.0701e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration 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= 2.1409e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.013 sec Sensitivity checks complete with 0 total errors (max tess err= 4.4148e-07) with 0 suppressions real 0m0.726s user 0m0.376s sys 0m0.344s ++ set +x -------------------------------------------------------------------------------------------------- ( 173 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(X0) check complete with 0 total errors (errmax= 1.5722e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.1863e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(Y0) check complete with 0 total errors (errmax= 3.7211e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(Z0) check complete with 0 total errors (errmax= 8.2162e-16) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(L) check complete with 0 total errors (errmax= 5.4535e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.4047e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 6.4047e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(H) check complete with 0 total errors (errmax= 1.9379e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.7764e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX1) check complete with 0 total errors (errmax= 1.6036e-15) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 1.2399e-15) d(Node)/d(DX1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY1) check complete with 0 total errors (errmax= 9.4567e-16) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DY1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 7.1152e-16) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX2) check complete with 0 total errors (errmax= 2.2784e-15) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.5384e-15) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY2) check complete with 0 total errors (errmax= 8.9430e-16) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) d(Node)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 9.5142e-16) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.3960e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.4183e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY3) check complete with 0 total errors (errmax= 6.5643e-16) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 4.6151e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.8087e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 8.4209e-16) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(S1) check complete with 0 total errors (errmax= 4.4668e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(S2) check complete with 0 total errors (errmax= 2.3148e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.3428e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.438 sec Sensitivity checks complete with 0 total errors (max tess err= 6.4048e-15) with 0 suppressions real 0m2.793s user 0m2.162s sys 0m0.523s ++ set +x -------------------------------------------------------------------------------------------------- ( 174 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(X0) check complete with 0 total errors (errmax= 2.5841e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.4374e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(Y0) check complete with 0 total errors (errmax= 3.9257e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 3.9205e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.9181e-15) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 2.3875e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(L) check complete with 0 total errors (errmax= 6.3892e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 7.0417e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 6.4047e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(H) check complete with 0 total errors (errmax= 2.4891e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.3661e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.4045e-15) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 2.3258e-15) d(Node)/d(DX1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY1) check complete with 0 total errors (errmax= 1.8759e-15) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 1.8603e-15) d(Node)/d(DY1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.0606e-15) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 1.3630e-15) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX2) check complete with 0 total errors (errmax= 2.7918e-15) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 2.3258e-15) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.3210e-15) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 8.4411e-16) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 1.4583e-15) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 1.3630e-15) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX3) check complete with 0 total errors (errmax= 2.4270e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 2.2469e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.1650e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.5888e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 9.5146e-16) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.2044e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(S1) check complete with 0 total errors (errmax= 5.5278e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 6.4498e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(S2) check complete with 0 total errors (errmax= 3.1407e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 3.0026e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.599 sec Sensitivity checks complete with 0 total errors (max tess err= 7.0417e-15) with 0 suppressions real 0m3.878s user 0m3.414s sys 0m0.515s ++ set +x -------------------------------------------------------------------------------------------------- ( 175 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(X0) check complete with 0 total errors (errmax= 3.3275e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.7814e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(Y0) check complete with 0 total errors (errmax= 3.7394e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 4.2685e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.5691e-15) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 2.3007e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(L) check complete with 0 total errors (errmax= 6.0882e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 7.7888e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 6.4047e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(H) check complete with 0 total errors (errmax= 2.4469e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.3661e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.9608e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 3.7538e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.9631e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 3.7537e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 3.3355e-07) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 4.2806e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.0803e-07) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.0980e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.0524e-07) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.0867e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 2.5582e-07) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.1960e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DX3) check complete with 0 total errors (errmax= 2.0249e-08) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 2.2645e-08) d(Node)/d(DX3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.5933e-08) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.9605e-08) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.3709e-07) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 5.9501e-07) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(S1) check complete with 0 total errors (errmax= 5.4439e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.5741e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=24 Computing distances of perturbed points from perturbed configuration for ibody=24 d(Face)/d(S2) check complete with 0 total errors (errmax= 3.3456e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.8346e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.499 sec Sensitivity checks complete with 0 total errors (max tess err= 5.9501e-07) with 0 suppressions real 0m3.741s user 0m2.976s sys 0m0.551s ++ set +x -------------------------------------------------------------------------------------------------- ( 176 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP1d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(X0) check complete with 0 total errors (errmax= 3.2166e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 4.2213e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(Y0) check complete with 0 total errors (errmax= 4.0171e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 3.9205e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.8942e-15) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 2.3007e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(L) check complete with 0 total errors (errmax= 5.8927e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 6.8267e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 6.4047e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(H) check complete with 0 total errors (errmax= 2.2245e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.3661e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DX1) check complete with 0 total errors (errmax= 3.6025e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 4.7942e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DY1) check complete with 0 total errors (errmax= 3.6025e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 4.7942e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 1.7153e-07) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 2.3398e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.0639e-07) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.1131e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.0639e-07) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.1131e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 4.0172e-07) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 5.2404e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DX3) check complete with 0 total errors (errmax= 6.5011e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 5.0541e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DY3) check complete with 0 total errors (errmax= 7.1921e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 8.0773e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 6.2627e-15) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 6.8494e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(S1) check complete with 0 total errors (errmax= 6.2139e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 6.4911e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=30 Computing distances of perturbed points from perturbed configuration for ibody=30 d(Face)/d(S2) check complete with 0 total errors (errmax= 3.6077e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.8346e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.925 sec Sensitivity checks complete with 0 total errors (max tess err= 5.2404e-07) with 0 suppressions real 0m4.981s user 0m4.278s sys 0m0.784s ++ set +x -------------------------------------------------------------------------------------------------- ( 177 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 2.5640e-16) d(Edge)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 3.5527e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(H) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(H) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 6.8257e-16) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 6.7140e-16) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.8208e-15) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.8990e-15) d(Node)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 6.2659e-16) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 2.6065e-16) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 1.2356e-15) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.3088e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 1.4183e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 4.6302e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 4.6229e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 2.6645e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 4.3271e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.7547e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 1.3428e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.696 sec Sensitivity checks complete with 0 total errors (max tess err= 5.3291e-15) with 0 suppressions real 0m3.391s user 0m3.055s sys 0m0.374s ++ set +x -------------------------------------------------------------------------------------------------- ( 178 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 2.5841e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 1.3428e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.4720e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 8.7374e-16) d(Node)/d(Y0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.6223e-15) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 9.7033e-16) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 5.0185e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4666e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 1.1676e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.0616e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.4045e-15) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 2.3258e-15) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 1.1937e-15) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 1.1629e-15) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.0033e-15) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 1.0461e-15) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 2.7918e-15) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 2.3258e-15) d(Node)/d(DX2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.2356e-15) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 1.1815e-15) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 1.0461e-15) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 2.4270e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 2.2469e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 9.6419e-16) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 7.9441e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 9.3016e-16) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 5.0779e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 2.7858e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.8485e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.864 sec Sensitivity checks complete with 0 total errors (max tess err= 5.3291e-15) with 0 suppressions real 0m4.801s user 0m4.541s sys 0m0.411s ++ set +x -------------------------------------------------------------------------------------------------- ( 179 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(X0) check complete with 0 total errors (errmax= 3.9368e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 2.6309e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.4519e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.5630e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.7214e-15) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.8048e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(L) check complete with 0 total errors (errmax= 5.6097e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.1047e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(H) check complete with 0 total errors (errmax= 1.3251e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.7835e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX1) check complete with 0 total errors (errmax= 2.9608e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 3.7538e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY1) check complete with 0 total errors (errmax= 2.9631e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 3.7537e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 3.3355e-07) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 4.2806e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.0803e-07) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.0980e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.0524e-07) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.0867e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 2.5582e-07) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.1960e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DX3) check complete with 0 total errors (errmax= 2.0249e-08) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 2.2645e-08) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.5933e-08) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.9605e-08) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.3709e-07) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 5.9501e-07) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(S1) check complete with 0 total errors (errmax= 5.8197e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 6.4742e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 Computing distances of perturbed points from perturbed configuration for ibody=14 d(Face)/d(S2) check complete with 0 total errors (errmax= 3.3444e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 3.0474e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.355 sec Sensitivity checks complete with 0 total errors (max tess err= 5.9501e-07) with 0 suppressions real 0m3.693s user 0m3.460s sys 0m0.343s ++ set +x -------------------------------------------------------------------------------------------------- ( 180 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP2d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(X0) check complete with 0 total errors (errmax= 4.3525e-15) d(Edge)/d(X0) check complete with 0 total errors (errmax= 4.2213e-15) d(Node)/d(X0) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(Y0) check complete with 0 total errors (errmax= 1.5044e-15) d(Edge)/d(Y0) check complete with 0 total errors (errmax= 1.4289e-15) d(Node)/d(Y0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Z0" ********************************************************* Generating perturbed configuration with delta-Z0[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(Z0) check complete with 0 total errors (errmax= 1.9080e-15) d(Edge)/d(Z0) check complete with 0 total errors (errmax= 1.8048e-15) d(Node)/d(Z0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(L) check complete with 0 total errors (errmax= 5.3655e-15) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.0243e-15) d(Node)/d(L) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(H) check complete with 0 total errors (errmax= 1.5834e-15) d(Edge)/d(H) check complete with 0 total errors (errmax= 1.7835e-15) d(Node)/d(H) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DX1) check complete with 0 total errors (errmax= 3.6025e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 4.7942e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DY1) check complete with 0 total errors (errmax= 3.6025e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 4.7942e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 1.7153e-07) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 2.3398e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DX2) check complete with 0 total errors (errmax= 1.0639e-07) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.1131e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.0639e-07) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.1131e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 4.0172e-07) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 5.2404e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DX3) check complete with 0 total errors (errmax= 6.4263e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 4.8430e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DY3) check complete with 0 total errors (errmax= 6.6799e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 7.6008e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.8646e-15) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 5.8836e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "S1" ********************************************************* Generating perturbed configuration with delta-S1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(S1) check complete with 0 total errors (errmax= 6.5406e-15) d(Edge)/d(S1) check complete with 0 total errors (errmax= 6.7676e-15) d(Node)/d(S1) check complete with 0 total errors (errmax= 5.3291e-15) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=20 Computing distances of perturbed points from perturbed configuration for ibody=20 d(Face)/d(S2) check complete with 0 total errors (errmax= 3.5300e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.9300e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.771 sec Sensitivity checks complete with 0 total errors (max tess err= 5.2404e-07) with 0 suppressions real 0m5.116s user 0m4.890s sys 0m0.486s ++ set +x -------------------------------------------------------------------------------------------------- ( 181 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Ytop" ********************************************************* Generating perturbed configuration with delta-Ytop[1,1]= 0.00450000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Ybot" ********************************************************* Generating perturbed configuration with delta-Ybot[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=25 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.903 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m6.424s user 0m5.366s sys 0m1.065s ++ set +x -------------------------------------------------------------------------------------------------- ( 182 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Ytop" ********************************************************* Generating perturbed configuration with delta-Ytop[1,1]= 0.00450000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Ybot" ********************************************************* Generating perturbed configuration with delta-Ybot[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=25 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.494 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m5.940s user 0m4.815s sys 0m1.116s ++ set +x -------------------------------------------------------------------------------------------------- ( 183 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Ytop" ********************************************************* Generating perturbed configuration with delta-Ytop[1,1]= 0.00450000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "Ybot" ********************************************************* Generating perturbed configuration with delta-Ybot[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=25 ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=25 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 5.003 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m7.901s user 0m6.708s sys 0m1.171s ++ set +x -------------------------------------------------------------------------------------------------- ( 184 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP3d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X0" ********************************************************* Generating perturbed configuration with delta-X0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "Y0" ********************************************************* Generating perturbed configuration with delta-Y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "Ytop" ********************************************************* Generating perturbed configuration with delta-Ytop[1,1]= 0.00450000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "Ybot" ********************************************************* Generating perturbed configuration with delta-Ybot[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=31 ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=31 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 7.464 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m11.305s user 0m9.840s sys 0m1.400s ++ set +x -------------------------------------------------------------------------------------------------- ( 185 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(X1) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(X1) check complete with 0 total errors (errmax= 5.6416e-06) d(Node)/d(X1) check complete with 0 total errors (errmax= 5.6416e-06) ********************************************************* Starting tessellation sensitivity wrt "R1" ********************************************************* Generating perturbed configuration with delta-R1[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.6812e-15) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.3128e-05) d(Node)/d(R1) check complete with 0 total errors (errmax= 1.3128e-05) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(X2) check complete with 0 total errors (errmax= 3.6710e-16) d(Edge)/d(X2) check complete with 0 total errors (errmax= 6.2656e-07) d(Node)/d(X2) check complete with 0 total errors (errmax= 6.2656e-07) ********************************************************* Starting tessellation sensitivity wrt "R2" ********************************************************* Generating perturbed configuration with delta-R2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(R2) check complete with 0 total errors (errmax= 1.1195e-15) d(Edge)/d(R2) check complete with 0 total errors (errmax= 1.6134e-06) d(Node)/d(R2) check complete with 0 total errors (errmax= 1.6134e-06) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX1) check complete with 0 total errors (errmax= 3.6710e-16) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 3.6710e-16) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY1) check complete with 0 total errors (errmax= 6.3609e-16) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 1.7764e-15) d(Node)/d(DY1) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 9.6390e-16) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX2) check complete with 0 total errors (errmax= 7.0470e-16) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 9.8785e-16) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY2) check complete with 0 total errors (errmax= 7.6451e-16) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) d(Node)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 8.6568e-16) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.2115e-15) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX3) check complete with 0 total errors (errmax= 6.9745e-16) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 9.7033e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.0036e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 3.6773e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 1.2561e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 1.5795e-15) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 1.5156e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(S2) check complete with 0 total errors (errmax= 1.7183e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.1148e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.093 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3128e-05) with 0 suppressions real 0m3.654s user 0m2.885s sys 0m0.632s ++ set +x -------------------------------------------------------------------------------------------------- ( 186 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(X1) check complete with 0 total errors (errmax= 7.8328e-05) d(Edge)/d(X1) check complete with 0 total errors (errmax= 7.8328e-05) d(Node)/d(X1) check complete with 0 total errors (errmax= 5.6416e-06) ********************************************************* Starting tessellation sensitivity wrt "R1" ********************************************************* Generating perturbed configuration with delta-R1[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.1926e-04) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.1926e-04) d(Node)/d(R1) check complete with 0 total errors (errmax= 1.3128e-05) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(X2) check complete with 0 total errors (errmax= 2.6162e-05) d(Edge)/d(X2) check complete with 0 total errors (errmax= 2.6162e-05) d(Node)/d(X2) check complete with 0 total errors (errmax= 6.2656e-07) ********************************************************* Starting tessellation sensitivity wrt "R2" ********************************************************* Generating perturbed configuration with delta-R2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(R2) check complete with 0 total errors (errmax= 2.2937e-05) d(Edge)/d(R2) check complete with 0 total errors (errmax= 2.2937e-05) d(Node)/d(R2) check complete with 0 total errors (errmax= 1.6134e-06) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX1) check complete with 0 total errors (errmax= 9.4453e-16) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 1.2561e-15) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY1) check complete with 0 total errors (errmax= 1.3561e-15) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 1.8048e-15) d(Node)/d(DY1) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.7059e-15) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX2) check complete with 0 total errors (errmax= 9.6287e-16) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.3174e-15) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY2) check complete with 0 total errors (errmax= 1.3041e-15) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.8048e-15) d(Node)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 2.7059e-15) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 3.8918e-15) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX3) check complete with 0 total errors (errmax= 6.3266e-16) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 6.5732e-16) d(Node)/d(DX3) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.0328e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 9.5247e-16) d(Node)/d(DY3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 2.8020e-15) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 3.4322e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(S2) check complete with 0 total errors (errmax= 2.7795e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.6732e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 4.063 sec Sensitivity checks complete with 14 total errors (max tess err= 1.1926e-04) with 0 suppressions real 0m8.442s user 0m7.624s sys 0m0.603s ++ set +x -------------------------------------------------------------------------------------------------- ( 187 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(X1) check complete with 0 total errors (errmax= 7.7225e-05) d(Edge)/d(X1) check complete with 0 total errors (errmax= 7.8328e-05) d(Node)/d(X1) check complete with 0 total errors (errmax= 5.6416e-06) ********************************************************* Starting tessellation sensitivity wrt "R1" ********************************************************* Generating perturbed configuration with delta-R1[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.1758e-04) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.1926e-04) d(Node)/d(R1) check complete with 0 total errors (errmax= 1.3128e-05) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(X2) check complete with 0 total errors (errmax= 2.5794e-05) d(Edge)/d(X2) check complete with 0 total errors (errmax= 2.6162e-05) d(Node)/d(X2) check complete with 0 total errors (errmax= 6.2656e-07) ********************************************************* Starting tessellation sensitivity wrt "R2" ********************************************************* Generating perturbed configuration with delta-R2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(R2) check complete with 0 total errors (errmax= 2.2430e-05) d(Edge)/d(R2) check complete with 0 total errors (errmax= 2.2937e-05) d(Node)/d(R2) check complete with 0 total errors (errmax= 1.6134e-06) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX1) check complete with 0 total errors (errmax= 3.6164e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 3.8104e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY1) check complete with 0 total errors (errmax= 3.6167e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 3.8103e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 4.0116e-07) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 4.2666e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX2) check complete with 0 total errors (errmax= 9.9943e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.0370e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY2) check complete with 0 total errors (errmax= 7.2777e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.0283e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 2.7842e-07) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 2.9891e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DX3) check complete with 0 total errors (errmax= 1.9807e-08) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 2.1487e-08) d(Node)/d(DX3) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DY3) check complete with 0 total errors (errmax= 1.8606e-08) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 1.9727e-08) d(Node)/d(DY3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.4618e-07) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 5.3101e-07) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=21 Computing distances of perturbed points from perturbed configuration for ibody=21 d(Face)/d(S2) check complete with 0 total errors (errmax= 2.3313e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.6830e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.855 sec Sensitivity checks complete with 6 total errors (max tess err= 1.1926e-04) with 0 suppressions real 0m6.150s user 0m5.764s sys 0m0.515s ++ set +x -------------------------------------------------------------------------------------------------- ( 188 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP4d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "X1" ********************************************************* Generating perturbed configuration with delta-X1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(X1) check complete with 0 total errors (errmax= 7.7995e-05) d(Edge)/d(X1) check complete with 0 total errors (errmax= 7.8328e-05) d(Node)/d(X1) check complete with 0 total errors (errmax= 5.6416e-06) ********************************************************* Starting tessellation sensitivity wrt "R1" ********************************************************* Generating perturbed configuration with delta-R1[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(R1) check complete with 0 total errors (errmax= 1.1876e-04) d(Edge)/d(R1) check complete with 0 total errors (errmax= 1.1926e-04) d(Node)/d(R1) check complete with 0 total errors (errmax= 1.3128e-05) ********************************************************* Starting tessellation sensitivity wrt "X2" ********************************************************* Generating perturbed configuration with delta-X2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(X2) check complete with 0 total errors (errmax= 2.6051e-05) d(Edge)/d(X2) check complete with 0 total errors (errmax= 2.6162e-05) d(Node)/d(X2) check complete with 0 total errors (errmax= 6.2656e-07) ********************************************************* Starting tessellation sensitivity wrt "R2" ********************************************************* Generating perturbed configuration with delta-R2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(R2) check complete with 0 total errors (errmax= 2.2641e-05) d(Edge)/d(R2) check complete with 0 total errors (errmax= 2.2937e-05) d(Node)/d(R2) check complete with 0 total errors (errmax= 1.6134e-06) ********************************************************* Starting tessellation sensitivity wrt "DX1" ********************************************************* Generating perturbed configuration with delta-DX1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DX1) check complete with 0 total errors (errmax= 4.4014e-08) d(Edge)/d(DX1) check complete with 0 total errors (errmax= 4.6673e-08) d(Node)/d(DX1) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY1" ********************************************************* Generating perturbed configuration with delta-DY1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DY1) check complete with 0 total errors (errmax= 4.4019e-08) d(Edge)/d(DY1) check complete with 0 total errors (errmax= 4.6673e-08) d(Node)/d(DY1) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ1" ********************************************************* Generating perturbed configuration with delta-DZ1[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DZ1) check complete with 0 total errors (errmax= 2.2550e-07) d(Edge)/d(DZ1) check complete with 0 total errors (errmax= 2.4012e-07) d(Node)/d(DZ1) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX2" ********************************************************* Generating perturbed configuration with delta-DX2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DX2) check complete with 0 total errors (errmax= 9.9401e-08) d(Edge)/d(DX2) check complete with 0 total errors (errmax= 1.0312e-07) d(Node)/d(DX2) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DY2" ********************************************************* Generating perturbed configuration with delta-DY2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DY2) check complete with 0 total errors (errmax= 7.1607e-08) d(Edge)/d(DY2) check complete with 0 total errors (errmax= 1.0312e-07) d(Node)/d(DY2) check complete with 0 total errors (errmax= 1.7764e-15) ********************************************************* Starting tessellation sensitivity wrt "DZ2" ********************************************************* Generating perturbed configuration with delta-DZ2[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DZ2) check complete with 0 total errors (errmax= 4.3360e-07) d(Edge)/d(DZ2) check complete with 0 total errors (errmax= 4.5671e-07) d(Node)/d(DZ2) check complete with 0 total errors (errmax= 3.5527e-15) ********************************************************* Starting tessellation sensitivity wrt "DX3" ********************************************************* Generating perturbed configuration with delta-DX3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DX3) check complete with 0 total errors (errmax= 5.5435e-15) d(Edge)/d(DX3) check complete with 0 total errors (errmax= 4.5301e-15) d(Node)/d(DX3) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "DY3" ********************************************************* Generating perturbed configuration with delta-DY3[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DY3) check complete with 0 total errors (errmax= 3.9474e-15) d(Edge)/d(DY3) check complete with 0 total errors (errmax= 4.0153e-15) d(Node)/d(DY3) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "DZ3" ********************************************************* Generating perturbed configuration with delta-DZ3[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(DZ3) check complete with 0 total errors (errmax= 4.1044e-15) d(Edge)/d(DZ3) check complete with 0 total errors (errmax= 3.5936e-15) d(Node)/d(DZ3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S2" ********************************************************* Generating perturbed configuration with delta-S2[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=27 Computing distances of perturbed points from perturbed configuration for ibody=27 d(Face)/d(S2) check complete with 0 total errors (errmax= 2.9660e-15) d(Edge)/d(S2) check complete with 0 total errors (errmax= 2.7053e-15) d(Node)/d(S2) check complete with 0 total errors (errmax= 1.7764e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.022 sec Sensitivity checks complete with 10 total errors (max tess err= 1.1926e-04) with 0 suppressions real 0m7.503s user 0m6.707s sys 0m0.753s ++ set +x -------------------------------------------------------------------------------------------------- ( 189 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP5a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(rad) check complete with 0 total errors (errmax= 2.2953e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.3687e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.2031e-16) Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration 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= 2.6475e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 3.8439e-07) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xcut) check complete with 0 total errors (errmax= 4.2999e-17) d(Edge)/d(xcut) check complete with 0 total errors (errmax= 3.6260e-16) d(Node)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "zcut" ********************************************************* Generating perturbed configuration with delta-zcut[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zcut) check complete with 0 total errors (errmax= 2.2154e-16) d(Edge)/d(zcut) check complete with 0 total errors (errmax= 1.0000e-06) d(Node)/d(zcut) check complete with 0 total errors (errmax= 1.0000e-06) Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "xrod" ********************************************************* Generating perturbed configuration with delta-xrod[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zrod" ********************************************************* Generating perturbed configuration with delta-zrod[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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= 2.4588e-16) d(Node)/d(zrod) check complete with 0 total errors (errmax= 1.5406e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.154 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5406e-06) with 0 suppressions real 0m1.424s user 0m1.396s sys 0m0.449s ++ set +x -------------------------------------------------------------------------------------------------- ( 190 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designP5b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "rad" ********************************************************* Generating perturbed configuration with delta-rad[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(rad) check complete with 0 total errors (errmax= 2.2953e-16) d(Edge)/d(rad) check complete with 0 total errors (errmax= 4.3687e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 2.2031e-16) Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration 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= 2.6475e-16) d(Node)/d(rad) check complete with 0 total errors (errmax= 3.8439e-07) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xcut) check complete with 0 total errors (errmax= 4.2999e-17) d(Edge)/d(xcut) check complete with 0 total errors (errmax= 3.6260e-16) d(Node)/d(xcut) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "zcut" ********************************************************* Generating perturbed configuration with delta-zcut[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zcut) check complete with 0 total errors (errmax= 2.2154e-16) d(Edge)/d(zcut) check complete with 0 total errors (errmax= 1.0000e-06) d(Node)/d(zcut) check complete with 0 total errors (errmax= 1.0000e-06) Computing analytic sensitivities (if possible) for ibody=15 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "xrod" ********************************************************* Generating perturbed configuration with delta-xrod[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(xrod) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zrod" ********************************************************* Generating perturbed configuration with delta-zrod[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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 distances of perturbed points from perturbed configuration 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= 2.4588e-16) d(Node)/d(zrod) check complete with 0 total errors (errmax= 1.5406e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.135 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5406e-06) with 0 suppressions real 0m1.623s user 0m1.408s sys 0m0.518s ++ set +x -------------------------------------------------------------------------------------------------- ( 191 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designQ1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L1" ********************************************************* Generating perturbed configuration with delta-L1[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration 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= 1.5630e-15) d(Node)/d(L1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L2" ********************************************************* Generating perturbed configuration with delta-L2[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration 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= 1.7181e-15) d(Node)/d(L2) check complete with 0 total errors (errmax= 3.5527e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.000 sec Sensitivity checks complete with 0 total errors (max tess err= 3.5527e-15) with 0 suppressions real 0m0.147s user 0m0.070s sys 0m0.074s ++ set +x -------------------------------------------------------------------------------------------------- ( 192 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designQ2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L1" ********************************************************* Generating perturbed configuration with delta-L1[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(L1) check complete with 0 total errors (errmax= 3.0031e-15) d(Edge)/d(L1) check complete with 0 total errors (errmax= 2.8536e-15) d(Node)/d(L1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "L2" ********************************************************* Generating perturbed configuration with delta-L2[1,1]= 0.01000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(L2) check complete with 0 total errors (errmax= 3.5935e-15) d(Edge)/d(L2) check complete with 0 total errors (errmax= 3.5527e-15) d(Node)/d(L2) check complete with 0 total errors (errmax= 3.5527e-15) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.002 sec Sensitivity checks complete with 0 total errors (max tess err= 3.5936e-15) with 0 suppressions real 0m0.298s user 0m0.184s sys 0m0.113s ++ set +x -------------------------------------------------------------------------------------------------- ( 193 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.8872e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.6672e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.5846e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1255e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.9055e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5416e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.9385e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.3793e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.2902e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.3634e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.8211e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.6812e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5465e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.9673e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.7110e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 9.9976e-18) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.6693e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.4586e-19) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.057 sec Sensitivity checks complete with 0 total errors (max tess err= 3.9065e-17) with 0 suppressions real 0m0.680s user 0m0.466s sys 0m0.111s ++ set +x -------------------------------------------------------------------------------------------------- ( 194 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.1334e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.9697e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.2062e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.7736e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.9292e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.5136e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.6976e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.5348e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.6007e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.7641e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.012 sec Sensitivity checks complete with 0 total errors (max tess err= 2.2072e-17) with 0 suppressions real 0m0.203s user 0m0.115s sys 0m0.088s ++ set +x -------------------------------------------------------------------------------------------------- ( 195 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 9.1498e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.5661e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 7.6743e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2423e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.0259e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 4.9627e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.8008e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9601e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.0746e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 4.2624e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 2.5519e-20) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 6.3841e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.8657e-19) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 5.3925e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0141e-20) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.029 sec Sensitivity checks complete with 0 total errors (max tess err= 9.1498e-06) with 0 suppressions real 0m0.456s user 0m0.366s sys 0m0.095s ++ set +x -------------------------------------------------------------------------------------------------- ( 196 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.7959e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0539e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.9107e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.9141e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.3798e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.4932e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 5.7284e-08) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6338e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.1226e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1396e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.9918e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1093e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.8748e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 6.8402e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.013 sec Sensitivity checks complete with 0 total errors (max tess err= 2.7959e-06) with 0 suppressions real 0m0.201s user 0m0.108s sys 0m0.082s ++ set +x -------------------------------------------------------------------------------------------------- ( 197 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR0e.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 9.4944e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.7342e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 7.6447e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2490e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.7360e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 5.0307e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 2.9296e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.7433e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 1.1140e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 4.1265e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1409e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 5.8204e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1085e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 5.5876e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 6.7654e-17) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 5.0845e-18) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.7040e-22) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration 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= 3.1517e-18) d(Node)/d(ztail) check complete with 0 total errors (errmax= 3.4694e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.039 sec Sensitivity checks complete with 0 total errors (max tess err= 9.4944e-06) with 0 suppressions real 0m0.591s user 0m0.448s sys 0m0.146s ++ set +x -------------------------------------------------------------------------------------------------- ( 198 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.1452e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.4249e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 4.0851e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.6672e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.1730e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 4.2770e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1255e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.5876e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.5212e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5416e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.1325e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.4990e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.0995e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.9872e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.2902e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1997e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.5796e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.8211e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.4270e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8550e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5465e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6583e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.2924e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.7110e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 8.3036e-18) d(Edge)/d(poly) check complete with 0 total errors (errmax= 8.8096e-18) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.3494e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9819e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.4586e-19) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.531 sec Sensitivity checks complete with 0 total errors (max tess err= 2.1453e-16) with 0 suppressions real 0m2.253s user 0m2.556s sys 0m0.172s ++ set +x -------------------------------------------------------------------------------------------------- ( 199 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.0557e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.8103e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.9133e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6139e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3341e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.7617e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.3084e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6653e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8586e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.6417e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.1707e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.3373e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.6235e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.4067e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.6960e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.3701e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.6731e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.3297e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.4855e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.3600e-17) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.1099e-17) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.266 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0558e-16) with 0 suppressions real 0m0.794s user 0m0.655s sys 0m0.119s ++ set +x -------------------------------------------------------------------------------------------------- ( 200 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.0770e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0060e-05) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.5358e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.7638e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3866e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 6.2996e-17) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2423e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2423e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.6207e-17) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.9627e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 4.9627e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0920e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.5885e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9601e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 8.6045e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0057e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.4506e-16) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.1197e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 2.5519e-20) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 5.3337e-16) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.6310e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.8657e-19) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.9756e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.8834e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0141e-20) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.444 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0060e-05) with 0 suppressions real 0m1.609s user 0m1.606s sys 0m0.200s ++ set +x -------------------------------------------------------------------------------------------------- ( 201 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.8520e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.9280e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9280e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0539e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0069e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0069e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.7416e-17) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7416e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.3143e-17) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.3143e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.5223e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5223e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 6.0212e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0212e-08) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6338e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0775e-16) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.1396e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1396e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.9322e-16) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1093e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1093e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.9127e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9127e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 6.8402e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.115 sec Sensitivity checks complete with 0 total errors (max tess err= 2.9280e-06) with 0 suppressions real 0m0.416s user 0m0.404s sys 0m0.068s ++ set +x -------------------------------------------------------------------------------------------------- ( 202 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR1e.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(span) check complete with 0 total errors (errmax= 1.9475e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0210e-05) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.2309e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.0152e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7607e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 5.7460e-17) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2490e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2490e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 1.8884e-17) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.0307e-17) d(Node)/d(param) check complete with 0 total errors (errmax= 5.0307e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 2.2708e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.8635e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.7433e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 8.9440e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0731e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 3.0862e-16) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.1409e-16) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1409e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 4.4817e-16) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1085e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1085e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(param) check complete with 0 total errors (errmax= 4.1861e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.2065e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 6.7654e-17) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(ztail) check complete with 0 total errors (errmax= 4.9083e-18) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 4.5936e-18) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.7040e-22) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.4576e-18) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 3.4694e-18) d(Node)/d(ztail) check complete with 0 total errors (errmax= 3.4694e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.556 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0210e-05) with 0 suppressions real 0m1.778s user 0m1.900s sys 0m0.215s ++ set +x -------------------------------------------------------------------------------------------------- ( 203 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 2.4210e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.4324e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.9091e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3892e-08) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.6672e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.4444e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.4919e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1255e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.8291e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8654e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5416e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2171e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2413e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.0741e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.1947e-11) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.2902e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.9193e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3969e-08) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.8211e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.3912e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.4517e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5465e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.7882e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8350e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.7110e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1899e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2211e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.9384e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.0939e-11) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.4586e-19) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.649 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9193e-08) with 0 suppressions real 0m6.000s user 0m5.807s sys 0m0.186s ++ set +x -------------------------------------------------------------------------------------------------- ( 204 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 2.0145e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.5177e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.3148e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.8195e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 7.5424e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.8327e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.5484e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.2201e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.3612e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.4773e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1784e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.3725e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.3148e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.8195e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 7.5424e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 3.8327e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 3.5484e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.2201e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.3612e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.4773e-12) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1783e-12) d(Edge)/d(poly) check complete with 0 total errors (errmax= 7.3726e-13) d(Node)/d(poly) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.341 sec Sensitivity checks complete with 0 total errors (max tess err= 7.5424e-12) with 0 suppressions real 0m2.367s user 0m2.135s sys 0m0.167s ++ set +x -------------------------------------------------------------------------------------------------- ( 205 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 2.3767e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.6037e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0060e-05) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.5358e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.7638e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3866e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.2905e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.4194e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2423e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 8.0282e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.6168e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 4.9627e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.4017e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9672e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9601e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 8.6045e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0057e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.7943e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1974e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 2.5519e-20) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2428e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.3289e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 1.8657e-19) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.9158e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.3582e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0141e-20) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.860 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0060e-05) with 0 suppressions real 0m6.096s user 0m5.719s sys 0m0.219s ++ set +x -------------------------------------------------------------------------------------------------- ( 206 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 2.4577e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.4499e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.9280e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9280e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0539e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0069e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0069e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 5.3219e-14) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.3236e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2857e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2862e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.5223e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5223e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 6.0212e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0212e-08) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6338e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 4.5794e-14) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.5809e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1396e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0449e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0455e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1093e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.8315e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.8315e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 6.8402e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.001 sec Sensitivity checks complete with 0 total errors (max tess err= 2.9280e-06) with 0 suppressions real 0m1.648s user 0m1.634s sys 0m0.115s ++ set +x -------------------------------------------------------------------------------------------------- ( 207 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR2e.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(span) check complete with 0 total errors (errmax= 2.3657e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.4634e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0210e-05) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.2309e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.0152e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7607e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.8355e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5345e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2490e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 9.2989e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7204e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 5.0307e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 2.2708e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.8636e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.7433e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 8.9440e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0731e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 3.0487e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2618e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1409e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.3558e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.6113e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1085e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2312e-13) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.5106e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 6.7654e-17) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.0886e-09) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 8.3563e-10) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.7040e-22) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(ztail) check complete with 0 total errors (errmax= 1.9322e-09) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 7.9967e-10) d(Node)/d(ztail) check complete with 0 total errors (errmax= 3.4694e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.184 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0210e-05) with 0 suppressions real 0m6.714s user 0m6.579s sys 0m0.330s ++ set +x -------------------------------------------------------------------------------------------------- ( 208 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 2.1774e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.8087e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.9091e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3892e-08) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.6672e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.4444e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.4919e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1255e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.8291e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8654e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5416e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2171e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2413e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.0741e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.1947e-11) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.2902e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.9193e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3969e-08) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.8211e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.3912e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.4517e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5465e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.7882e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8350e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.7110e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1899e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2211e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.9384e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.0939e-11) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.4586e-19) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.872 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9193e-08) with 0 suppressions real 0m8.513s user 0m7.822s sys 0m0.244s ++ set +x -------------------------------------------------------------------------------------------------- ( 209 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 2.1774e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.8087e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "poly[1,1]" ********************************************************* Generating perturbed configuration with delta-poly[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.9091e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3892e-08) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.6672e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,2]" ********************************************************* Generating perturbed configuration with delta-poly[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.4444e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.4919e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.1255e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,3]" ********************************************************* Generating perturbed configuration with delta-poly[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.8291e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8654e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5416e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,4]" ********************************************************* Generating perturbed configuration with delta-poly[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.2171e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2413e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[1,5]" ********************************************************* Generating perturbed configuration with delta-poly[1,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 6.0741e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.1947e-11) d(Node)/d(poly) check complete with 0 total errors (errmax= 4.2902e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,1]" ********************************************************* Generating perturbed configuration with delta-poly[2,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.9193e-08) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.3969e-08) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.8211e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,2]" ********************************************************* Generating perturbed configuration with delta-poly[2,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 2.3912e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 2.4517e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.5465e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,3]" ********************************************************* Generating perturbed configuration with delta-poly[2,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.7882e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.8350e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.7110e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,4]" ********************************************************* Generating perturbed configuration with delta-poly[2,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 1.1899e-10) d(Edge)/d(poly) check complete with 0 total errors (errmax= 1.2211e-10) d(Node)/d(poly) check complete with 0 total errors (errmax= 1.5067e-19) ********************************************************* Starting tessellation sensitivity wrt "poly[2,5]" ********************************************************* Generating perturbed configuration with delta-poly[2,5]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(poly) check complete with 0 total errors (errmax= 5.9384e-11) d(Edge)/d(poly) check complete with 0 total errors (errmax= 6.0939e-11) d(Node)/d(poly) check complete with 0 total errors (errmax= 6.4586e-19) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.934 sec Sensitivity checks complete with 0 total errors (max tess err= 1.9193e-08) with 0 suppressions real 0m8.729s user 0m7.917s sys 0m0.334s ++ set +x -------------------------------------------------------------------------------------------------- ( 210 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 2.1328e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.7195e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0060e-05) d(Edge)/d(param) check complete with 0 total errors (errmax= 8.5358e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.7638e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.3866e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.2905e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.4194e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2423e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 8.0281e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.6168e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 4.9627e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.4017e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9672e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.9601e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 8.6045e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0057e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.7943e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.1974e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 2.5519e-20) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2428e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.3289e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 1.8657e-19) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.9158e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.3582e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0141e-20) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 2.617 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0060e-05) with 0 suppressions real 0m6.393s user 0m5.746s sys 0m0.224s ++ set +x -------------------------------------------------------------------------------------------------- ( 211 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3d.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 2.1407e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.6191e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.9280e-06) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.9280e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 9.0539e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0069e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0069e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 5.3326e-14) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.3236e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2883e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2861e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.5223e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5223e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 6.0212e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 6.0212e-08) d(Node)/d(param) check complete with 0 total errors (errmax= 3.6338e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 4.5886e-14) d(Edge)/d(param) check complete with 0 total errors (errmax= 4.5809e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1396e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.0488e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.0454e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1093e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.8314e-15) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.8316e-15) d(Node)/d(param) check complete with 0 total errors (errmax= 6.8402e-17) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.971 sec Sensitivity checks complete with 0 total errors (max tess err= 2.9280e-06) with 0 suppressions real 0m1.801s user 0m1.578s sys 0m0.167s ++ set +x -------------------------------------------------------------------------------------------------- ( 212 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designR3e.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "span" ********************************************************* Generating perturbed configuration with delta-span[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(span) check complete with 0 total errors (errmax= 2.1913e-16) d(Edge)/d(span) check complete with 0 total errors (errmax= 2.6128e-16) d(Node)/d(span) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "param[1,1]" ********************************************************* Generating perturbed configuration with delta-param[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.0210e-05) d(Edge)/d(param) check complete with 0 total errors (errmax= 9.2309e-06) d(Node)/d(param) check complete with 0 total errors (errmax= 4.7990e-12) ********************************************************* Starting tessellation sensitivity wrt "param[1,2]" ********************************************************* Generating perturbed configuration with delta-param[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.0152e-07) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7607e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 1.6138e-13) ********************************************************* Starting tessellation sensitivity wrt "param[1,3]" ********************************************************* Generating perturbed configuration with delta-param[1,3]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.8355e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.5345e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 1.2490e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,4]" ********************************************************* Generating perturbed configuration with delta-param[1,4]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 9.2988e-12) d(Edge)/d(param) check complete with 0 total errors (errmax= 3.7204e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 5.0307e-17) ********************************************************* Starting tessellation sensitivity wrt "param[1,5]" ********************************************************* Generating perturbed configuration with delta-param[1,5]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 2.2708e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 2.8636e-11) d(Node)/d(param) check complete with 0 total errors (errmax= 2.7433e-18) ********************************************************* Starting tessellation sensitivity wrt "param[1,6]" ********************************************************* Generating perturbed configuration with delta-param[1,6]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 8.9440e-08) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.0731e-07) d(Node)/d(param) check complete with 0 total errors (errmax= 2.1325e-14) ********************************************************* Starting tessellation sensitivity wrt "param[1,7]" ********************************************************* Generating perturbed configuration with delta-param[1,7]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 3.0486e-10) d(Edge)/d(param) check complete with 0 total errors (errmax= 1.2618e-10) d(Node)/d(param) check complete with 0 total errors (errmax= 6.1409e-16) ********************************************************* Starting tessellation sensitivity wrt "param[1,8]" ********************************************************* Generating perturbed configuration with delta-param[1,8]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.3558e-11) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.6113e-12) d(Node)/d(param) check complete with 0 total errors (errmax= 1.1085e-15) ********************************************************* Starting tessellation sensitivity wrt "param[1,9]" ********************************************************* Generating perturbed configuration with delta-param[1,9]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(param) check complete with 0 total errors (errmax= 1.2312e-13) d(Edge)/d(param) check complete with 0 total errors (errmax= 5.5105e-14) d(Node)/d(param) check complete with 0 total errors (errmax= 6.7654e-17) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,1]" ********************************************************* Generating perturbed configuration with delta-ztail[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ztail) check complete with 0 total errors (errmax= 2.0886e-09) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 8.3563e-10) d(Node)/d(ztail) check complete with 0 total errors (errmax= 1.7040e-22) ********************************************************* Starting tessellation sensitivity wrt "ztail[1,2]" ********************************************************* Generating perturbed configuration with delta-ztail[1,2]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(ztail) check complete with 0 total errors (errmax= 1.9322e-09) d(Edge)/d(ztail) check complete with 0 total errors (errmax= 7.9967e-10) d(Node)/d(ztail) check complete with 0 total errors (errmax= 3.4694e-18) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 3.609 sec Sensitivity checks complete with 0 total errors (max tess err= 1.0210e-05) with 0 suppressions real 0m7.356s user 0m7.038s sys 0m0.309s ++ set +x -------------------------------------------------------------------------------------------------- ( 213 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designS1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(dx) check complete with 0 total errors (errmax= 5.6686e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 WARNING:: dxyz mismatch: inode= 2 ( 0.000000 1.000000 0.000000) iend = 1 ( -0.000735 -0.500000 0.000000) err=( -0.000735 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 2 ( 0.000000 1.000000 0.000000) ibeg = 4 ( 0.000000 -0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 1.000000 0.000000) iend = 3 ( -0.000735 -0.500000 -0.000000) err=( -0.000735 -1.500000 -0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 1.000000 0.000000) iend = 4 ( 0.000000 -0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 2.000000 0.000000) iend = 6 ( -0.000735 0.500000 -0.000000) err=( -0.000735 -1.500000 -0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 2.000000 0.000000) ibeg = 10 ( 0.000000 0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 2.000000 0.000000) iend = 9 ( -0.000735 0.500000 0.000000) err=( -0.000735 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 2.000000 0.000000) iend = 10 ( 0.000000 0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=6 ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=6 WARNING:: dxyz mismatch: inode= 2 ( 0.000000 0.000000 0.000000) iend = 1 ( 0.000491 1.002938 0.000000) err=( 0.000491 1.002938 0.000000) WARNING:: dxyz mismatch: inode= 2 ( 0.000000 0.000000 0.000000) ibeg = 4 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 2 ( 0.000000 0.000000 0.000000) iend = 12 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 0.000000 0.000000) iend = 3 ( 0.000491 1.002938 -0.000000) err=( 0.000491 1.002938 -0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 0.000000 0.000000) iend = 4 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 0.000000 0.000000) ibeg = 7 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 0.000000) iend = 6 ( 0.000491 1.002938 -0.000000) err=( 0.000491 1.002938 -0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 0.000000) iend = 7 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 0.000000) ibeg = 10 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 0.000000 0.000000) iend = 9 ( 0.000491 1.002938 0.000000) err=( 0.000491 1.002938 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 0.000000 0.000000) iend = 10 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 0.000000 0.000000) ibeg = 12 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.722 sec Sensitivity checks complete with 0 total errors (max tess err= 6.7141e-16) with 0 suppressions real 0m3.901s user 0m3.389s sys 0m0.265s ++ set +x -------------------------------------------------------------------------------------------------- ( 214 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designS2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(dx) check complete with 0 total errors (errmax= 5.6686e-16) d(Edge)/d(dx) check complete with 0 total errors (errmax= 6.7140e-16) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 WARNING:: dxyz mismatch: inode= 2 ( 0.000000 1.000000 0.000000) iend = 1 ( -0.000735 -0.500000 -0.000000) err=( -0.000735 -1.500000 -0.000000) WARNING:: dxyz mismatch: inode= 2 ( 0.000000 1.000000 0.000000) ibeg = 4 ( 0.000000 -0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 1.000000 0.000000) iend = 3 ( -0.000735 -0.500000 0.000000) err=( -0.000735 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 1.000000 0.000000) iend = 4 ( 0.000000 -0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 2.000000 0.000000) iend = 6 ( -0.000735 0.500000 0.000000) err=( -0.000735 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 2.000000 0.000000) ibeg = 10 ( 0.000000 0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 2.000000 0.000000) iend = 9 ( -0.000735 0.500000 -0.000000) err=( -0.000735 -1.500000 -0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 2.000000 0.000000) iend = 10 ( 0.000000 0.500000 0.000000) err=( 0.000000 -1.500000 0.000000) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* Generating perturbed configuration with delta-dz[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 ********************************************************* Starting tessellation sensitivity wrt "scale" ********************************************************* Generating perturbed configuration with delta-scale[1,1]= 0.00150000 Computing analytic sensitivities (if possible) for ibody=5 WARNING:: dxyz mismatch: inode= 2 ( 0.000000 0.000000 0.000000) iend = 1 ( 0.000491 1.002938 -0.000000) err=( 0.000491 1.002938 -0.000000) WARNING:: dxyz mismatch: inode= 2 ( 0.000000 0.000000 0.000000) ibeg = 4 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 2 ( 0.000000 0.000000 0.000000) iend = 12 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 0.000000 0.000000) iend = 3 ( 0.000491 1.002938 0.000000) err=( 0.000491 1.002938 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 0.000000 0.000000) iend = 4 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 4 ( 0.000000 0.000000 0.000000) ibeg = 7 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 0.000000) iend = 6 ( 0.000491 1.002938 0.000000) err=( 0.000491 1.002938 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 0.000000) iend = 7 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) WARNING:: dxyz mismatch: inode= 6 ( 0.000000 0.000000 0.000000) ibeg = 10 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 0.000000 0.000000) iend = 9 ( 0.000491 1.002938 -0.000000) err=( 0.000491 1.002938 -0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 0.000000 0.000000) iend = 10 ( 6.000000 1.000000 0.000000) err=( 6.000000 1.000000 0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.000000 0.000000 0.000000) ibeg = 12 ( 6.000000 0.000000 0.000000) err=( 6.000000 0.000000 0.000000) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 1.903 sec Sensitivity checks complete with 0 total errors (max tess err= 6.7141e-16) with 0 suppressions real 0m4.690s user 0m3.857s sys 0m0.304s ++ set +x -------------------------------------------------------------------------------------------------- ( 215 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designS3.csm -tess -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 606000072c20 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 606000072c80 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 606000072ce0 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 606000072d40 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 606000072da0 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 606000072e00 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 606000072e60 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 606000072ec0 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 606000072f20 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 606000072f80 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 606000072fe0 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 606000073040 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 6060000730a0 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 606000073100 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 606000073160 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 6060000731c0 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 606000073280 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 6060000733a0 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 6060000734c0 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 6060000735e0 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 606000073640 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 606000073760 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 606000073880 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 6060000739a0 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=60600006f1a0, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=606000090440, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000090140, eref2=606000090c80 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600006fda0, eref3=606000090c80 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f5c0, eref4=606000090620 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f260, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f6e0, eref4=606000090740 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f320, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f260, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f680, eref4=6060000906e0 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f320, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f620, eref4=606000090680 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=6060000901a0, eref2=606000090da0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600006fe00, eref3=606000090da0 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f5c0, eref4=606000090620 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f260, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f7a0, eref4=606000090800 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f680, eref4=6060000906e0 (11:1) . . . . < trange= 7.95804 10.00000, arcLength= 2.0419601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f320, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f740, eref4=6060000907a0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f260, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f320, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000090200, eref2=606000090ec0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600006fe60, eref3=606000090ec0 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f800, eref4=606000090860 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f380, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600006fa40, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f380, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f9e0, eref4=6060000909e0 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f380, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f980, eref4=606000090980 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f920, eref4=606000090920 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f3e0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600006f8c0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f3e0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f860, eref4=6060000908c0 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f3e0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f620, eref4=606000090680 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000090260, eref2=606000090fe0 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600006fec0, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f6e0, eref4=606000090740 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f320, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f260, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f740, eref4=6060000907a0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f260, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f320, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=6060000902c0, eref2=606000091040 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600006ff20, eref3=606000091040 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f9e0, eref4=6060000909e0 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f380, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600006fb60, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f380, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f800, eref4=606000090860 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f380, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f7a0, eref4=606000090800 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f2c0, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f860, eref4=6060000908c0 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f3e0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f200, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600006fb00, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f3e0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f920, eref4=606000090920 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f3e0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006faa0, eref4=606000090a40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000090320, eref2=606000091160 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600006ff80, eref3=606000091160 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fbc0, eref4=606000090aa0 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f500, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006f980, eref4=606000090980 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fc80, eref4=606000090b60 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f560, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fc20, eref4=606000090b00 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f560, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f500, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000090380, eref2=606000091280 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000090020, eref3=606000091280 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fbc0, eref4=606000090aa0 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f500, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fce0, eref4=606000090bc0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f500, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f560, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fc80, eref4=606000090b60 (11:1) . . . . < trange= 0.00000 2.04196, arcLength= 2.0419606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f560, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006faa0, eref4=606000090a40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f440, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f4a0, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=6060000903e0, eref2=6060000913a0 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000090080, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fc20, eref4=606000090b00 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f560, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f500, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600006fce0, eref4=606000090bc0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f500, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600006f560, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 ********************************************************* Starting tessellation sensitivity wrt "len" ********************************************************* Generating perturbed configuration with delta-len[1,1]= 0.01000000 Body x: -5.00500 5.00500 y: -3.00000 3.00000 z: -3.00000 3.00000 Node 1 x: 2.95804 y: -0.00000 z: -0.50000 Node 2 x: 5.00500 y: -0.00000 z: -0.50000 Node 3 x: 2.95804 y: -0.00000 z: 0.50000 Node 4 x: 5.00500 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: -5.00500 y: -0.00000 z: -0.50000 Node 10 x: -5.00500 y: 0.00000 z: 0.50000 Edge 1 x: 2.95804 5.00500 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 5.00500 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 4 x: 5.00500 5.00500 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 5 x: 5.00500 5.00500 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: -5.00500 -2.95804 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 18 x: -5.00500 -5.00500 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 19 x: -5.00500 -2.95804 y: 0.00000 0.00000 z: 0.50000 0.50000 Edge 20 x: -5.00500 -5.00500 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 1 x: 2.95804 5.00500 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 2 x: 2.95804 5.00500 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: 5.00500 5.00500 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: -5.00500 -2.95804 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 7 x: -5.00500 -2.95804 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 8 x: -5.00500 -5.00500 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 5.00500 -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 5.00500 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 -5.00500 -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 -5.00500 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 7.96304 10.01000 2.04696 606000126380 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 6060001263e0 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 7.96304 10.01000 2.04696 606000126440 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 6060001264a0 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 606000126500 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 606000126560 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 6060001265c0 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 606000126620 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 606000126680 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 6060001266e0 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 606000126740 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 6060001267a0 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 2.04696 2.04696 606000126800 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 606000126860 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 2.04696 2.04696 6060001268c0 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 606000126920 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 7.96304 10.01000 6060001269e0 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 7.96304 10.01000 606000126b00 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 606000126c20 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 606000126d40 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 606000126da0 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 2.04696 606000126ec0 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 2.04696 606000126fe0 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 606000127100 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=606000145a60, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=606000146cc0, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=6060001469c0, eref2=606000147500 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000146660, eref3=606000147500 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145e80, eref4=606000146ea0 (11:1) . . . . < trange= 7.96304 10.01000, arcLength= 2.0469601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b20, data5= 5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145fa0, eref4=606000146fc0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145be0, data5= 5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b20, data5= 5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145f40, eref4=606000146f60 (11:1) . . . . < trange= 7.96304 10.01000, arcLength= 2.0469601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145be0, data5= 5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145ee0, eref4=606000146f00 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000146a20, eref2=606000147620 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=6060001466c0, eref3=606000147620 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145e80, eref4=606000146ea0 (11:1) . . . . < trange= 7.96304 10.01000, arcLength= 2.0469601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b20, data5= 5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146060, eref4=606000147080 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145f40, eref4=606000146f60 (11:1) . . . . < trange= 7.96304 10.01000, arcLength= 2.0469601085e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145be0, data5= 5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146000, eref4=606000147020 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b20, data5= 5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145be0, data5= 5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000146a80, eref2=606000147740 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000146720, eref3=606000147740 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001460c0, eref4=6060001470e0 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145c40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=606000146300, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145c40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001462a0, eref4=606000147260 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145c40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146240, eref4=606000147200 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001461e0, eref4=6060001471a0 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ca0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=606000146180, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ca0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146120, eref4=606000147140 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ca0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145ee0, eref4=606000146f00 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000146ae0, eref2=606000147860 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000146780, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000145fa0, eref4=606000146fc0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145be0, data5= 5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b20, data5= 5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146000, eref4=606000147020 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b20, data5= 5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145be0, data5= 5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000146b40, eref2=6060001478c0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=6060001467e0, eref3=6060001478c0 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001462a0, eref4=606000147260 (11:8) . . . . < trange= 0.16745 1.57080, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145c40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=606000146420, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145c40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001460c0, eref4=6060001470e0 (11:2) . . . . < trange= 6.45063 7.85398, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145c40, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146060, eref4=606000147080 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145b80, data5= 2.9580398915e+00 -3.0102306854e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146120, eref4=606000147140 (11:2) . . . . < trange= 4.71239 6.11574, arcLength= 4.2100447427e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ca0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ac0, data5= 2.9580398915e+00 -3.9287157847e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=6060001463c0, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ca0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001461e0, eref4=6060001471a0 (11:8) . . . . < trange= -1.57080 -0.16745, arcLength= 4.2100438903e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145ca0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146360, eref4=6060001472c0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000146ba0, eref2=6060001479e0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000146840, eref3=6060001479e0 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146480, eref4=606000147320 (11:1) . . . . < trange= 0.00000 2.04696, arcLength= 2.0469606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145dc0, data5= -5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146240, eref4=606000147200 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146540, eref4=6060001473e0 (11:1) . . . . < trange= 0.00000 2.04696, arcLength= 2.0469606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145e20, data5= -5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001464e0, eref4=606000147380 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145e20, data5= -5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145dc0, data5= -5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000146c00, eref2=606000147b00 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=6060001468a0, eref3=606000147b00 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146480, eref4=606000147320 (11:1) . . . . < trange= 0.00000 2.04696, arcLength= 2.0469606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145dc0, data5= -5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001465a0, eref4=606000147440 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145dc0, data5= -5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145e20, data5= -5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146540, eref4=6060001473e0 (11:1) . . . . < trange= 0.00000 2.04696, arcLength= 2.0469606374e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145e20, data5= -5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146360, eref4=6060001472c0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d00, data5= -2.9580393626e+00 1.5051150188e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145d60, data5= -2.9580393626e+00 2.4236001182e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=606000146c60, eref2=606000147c20 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=606000146900, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001464e0, eref4=606000147380 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145e20, data5= -5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145dc0, data5= -5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001465a0, eref4=606000147440 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145dc0, data5= -5.0050000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000145e20, data5= -5.0050000000e+00 1.2246467991e-16 5.0000000000e-01 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(len) check complete with 0 total errors (errmax= 6.0239e-16) d(Edge)/d(len) check complete with 0 total errors (errmax= 6.1748e-16) d(Node)/d(len) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "Rcyl" ********************************************************* Generating perturbed configuration with delta-Rcyl[1,1]= 0.00100000 Body x: -5.00000 5.00000 y: -3.00000 3.00000 z: -3.00000 3.00000 Node 1 x: 2.95787 y: -0.00000 z: -0.50100 Node 2 x: 5.00000 y: -0.00000 z: -0.50100 Node 3 x: 2.95787 y: -0.00000 z: 0.50100 Node 4 x: 5.00000 y: 0.00000 z: 0.50100 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: -2.95787 y: 0.00000 z: -0.50100 Node 8 x: -2.95787 y: 0.00000 z: 0.50100 Node 9 x: -5.00000 y: -0.00000 z: -0.50100 Node 10 x: -5.00000 y: 0.00000 z: 0.50100 Edge 1 x: 2.95787 5.00000 y: -0.00000 -0.00000 z: -0.50100 -0.50100 Edge 2 x: 2.95787 2.95787 y: -0.50100 -0.00000 z: -0.50100 0.50100 Edge 3 x: 2.95787 5.00000 y: 0.00000 0.00000 z: 0.50100 0.50100 Edge 4 x: 5.00000 5.00000 y: -0.50100 0.00000 z: -0.50100 0.50100 Edge 5 x: 5.00000 5.00000 y: -0.00000 0.50100 z: -0.50100 0.50100 Edge 6 x: 2.95787 2.95787 y: -0.00000 0.50100 z: -0.50100 0.50100 Edge 7 x: 0.00000 2.95787 y: -0.00000 -0.00000 z: 0.50100 3.00000 Edge 8 x: -0.00000 2.95787 y: -0.00000 0.00000 z: -3.00000 -0.50100 Edge 9 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00000 -3.00000 Edge 10 x: -2.95787 0.00000 y: -0.00000 0.00000 z: -3.00000 -0.50100 Edge 11 x: -2.95787 -2.95787 y: -0.50100 0.00000 z: -0.50100 0.50100 Edge 12 x: -2.95787 0.00000 y: -0.00000 0.00000 z: 0.50100 3.00000 Edge 13 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00000 3.00000 Edge 14 x: -2.95787 -2.95787 y: 0.00000 0.50100 z: -0.50100 0.50100 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 -2.95787 y: -0.00000 -0.00000 z: -0.50100 -0.50100 Edge 18 x: -5.00000 -5.00000 y: -0.50100 0.00000 z: -0.50100 0.50100 Edge 19 x: -5.00000 -2.95787 y: 0.00000 0.00000 z: 0.50100 0.50100 Edge 20 x: -5.00000 -5.00000 y: -0.00000 0.50100 z: -0.50100 0.50100 Face 1 x: 2.95787 5.00000 y: -0.50100 0.00000 z: -0.50100 0.50100 Face 2 x: 2.95787 5.00000 y: -0.00000 0.50100 z: -0.50100 0.50100 Face 3 x: -2.95787 2.95787 y: -3.00000 0.00000 z: -3.00000 3.00000 Face 4 x: 5.00000 5.00000 y: -0.50100 0.50100 z: -0.50100 0.50100 Face 5 x: -2.95787 2.95787 y: -0.00000 3.00000 z: -3.00000 3.00000 Face 6 x: -5.00000 -2.95787 y: -0.50100 0.00000 z: -0.50100 0.50100 Face 7 x: -5.00000 -2.95787 y: -0.00000 0.50100 z: -0.50100 0.50100 Face 8 x: -5.00000 -5.00000 y: -0.50100 0.50100 z: -0.50100 0.50100 Body 4 _body = 4 _brch = 5 inode nedge ibody x y z 1 4 4 2.95787 -0.00000 -0.50100 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 -0.50100 Edges -> 1 4 5 Faces -> 1 2 4 __trace__ = 1 1 3 2 4 2 _nedge = 3 _nodeID = 2 3 4 4 2.95787 -0.00000 0.50100 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 0.50100 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 -2.95787 0.00000 -0.50100 Edges -> 10 11 14 17 Faces -> 3 5 6 7 _nedge = 4 __trace__ = 3 7 4 7 _nodeID = 7 8 4 4 -2.95787 0.00000 0.50100 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 -0.50100 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 0.50100 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 7.95787 10.00000 2.04213 60600013cee0 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 1.57394 60600013e620 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 7.95787 10.00000 2.04213 606000137c60 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 1.57394 606000138860 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 1.57394 6060001388c0 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 1.57394 606000138920 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 6.45097 7.85398 4.20903 60600013c040 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 6.11540 4.20903 606000137900 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 -0.16779 4.20903 60600013ac00 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 1.57394 60600013c400 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 0.16779 1.57080 4.20903 60600013c4c0 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 1.57394 60600013ade0 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 2.04213 2.04213 60600013c2e0 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 1.57394 60600013c3a0 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 2.04213 2.04213 606000137180 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 1.57394 6060001392e0 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 7.95787 10.00000 606000139280 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 7.95787 10.00000 60600013ad80 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 60600013ad20 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 -0.50100 0.50100 -0.50100 0.50100 6060001370c0 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 606000138fe0 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 2.04213 606000138f20 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 2.04213 60600013e5c0 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 -0.50100 0.50100 -0.50100 0.50100 6060001387a0 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=60600011b700, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=60600011d1a0, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600011ea00, eref2=60600011b580 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011ee20, eref3=60600011b580 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000119c60, eref4=60600011f1e0 (11:1) . . . . < trange= 7.95787 10.00000, arcLength= 2.0421293132e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011b6a0, data5= 5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011f180, eref4=60600011ab60 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011f2a0, data5= 5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011b6a0, data5= 5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011f0c0, eref4=606000119f60 (11:1) . . . . < trange= 7.95787 10.00000, arcLength= 2.0421293132e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011f2a0, data5= 5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011d140, eref4=60600010f8e0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600011eac0, eref2=60600011d080 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011d320, eref3=60600011d080 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000119c60, eref4=60600011f1e0 (11:1) . . . . < trange= 7.95787 10.00000, arcLength= 2.0421293132e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011b6a0, data5= 5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011b460, eref4=60600011ac20 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011f0c0, eref4=606000119f60 (11:1) . . . . < trange= 7.95787 10.00000, arcLength= 2.0421293132e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011f2a0, data5= 5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000119420, eref4=60600011abc0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011b6a0, data5= 5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011f2a0, data5= 5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000119840, eref2=60600011d020 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011ec40, eref3=60600011d020 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011b400, eref4=60600011e340 (11:2) . . . . < trange= 6.45097 7.85398, arcLength= 4.2090305286e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600010f940, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600011d3e0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600010f940, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011f060, eref4=60600011e7c0 (11:8) . . . . < trange= 0.16779 1.57080, arcLength= 4.2090296760e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600010f940, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011efa0, eref4=60600011e700 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011d440, eref4=60600011cf00 (11:8) . . . . < trange= -1.57080 -0.16779, arcLength= 4.2090296760e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000119fc0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600011b3a0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000119fc0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011a440, eref4=606000119c00 (11:2) . . . . < trange= 4.71239 6.11540, arcLength= 4.2090305286e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000119fc0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011d140, eref4=60600010f8e0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600011c360, eref2=6060001193c0 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011ed00, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011f180, eref4=60600011ab60 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011f2a0, data5= 5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011b6a0, data5= 5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000119420, eref4=60600011abc0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011b6a0, data5= 5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011f2a0, data5= 5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600011c300, eref2=60600011b2e0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011d2c0, eref3=60600011b2e0 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011f060, eref4=60600011e7c0 (11:8) . . . . < trange= 0.16779 1.57080, arcLength= 4.2090296760e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600010f940, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=6060001196c0, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600010f940, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011b400, eref4=60600011e340 (11:2) . . . . < trange= 6.45097 7.85398, arcLength= 4.2090305286e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600010f940, data5= 1.8369701987e-16 -4.4992793480e-32 3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011b460, eref4=60600011ac20 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011d4a0, data5= 2.9578706868e+00 -3.0087988225e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011a440, eref4=606000119c00 (11:2) . . . . < trange= 4.71239 6.11540, arcLength= 4.2090305286e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000119fc0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011a500, data5= 2.9578706868e+00 -3.9291208921e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600011ef40, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000119fc0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011d440, eref4=60600011cf00 (11:8) . . . . < trange= -1.57080 -0.16779, arcLength= 4.2090296760e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000119fc0, data5= 1.8369701987e-16 -4.4992793480e-32 -3.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011ee80, eref4=60600011d0e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600011d200, eref2=60600011b220 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011eb20, eref3=60600011b220 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011be20, eref4=60600011e5e0 (11:1) . . . . < trange= 0.00000 2.04213, arcLength= 2.0421298432e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ad40, data5= -5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011efa0, eref4=60600011e700 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011d380, eref4=606000119480 (11:1) . . . . < trange= 0.00000 2.04213, arcLength= 2.0421298432e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011e880, data5= -5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011bdc0, eref4=60600011e6a0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011e880, data5= -5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ad40, data5= -5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600011e8e0, eref2=60600010f880 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011ebe0, eref3=60600010f880 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011be20, eref4=60600011e5e0 (11:1) . . . . < trange= 0.00000 2.04213, arcLength= 2.0421298432e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ad40, data5= -5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011ed60, eref4=60600011b5e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ad40, data5= -5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011e880, data5= -5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011d380, eref4=606000119480 (11:1) . . . . < trange= 0.00000 2.04213, arcLength= 2.0421298432e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011e880, data5= -5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011ee80, eref4=60600011d0e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ac80, data5= -2.9578701568e+00 1.5043990867e-16 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ace0, data5= -2.9578701568e+00 2.4247211563e-16 5.0100000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=60600011e9a0, eref2=60600011aaa0 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600011d260, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011bdc0, eref4=60600011e6a0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011e880, data5= -5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ad40, data5= -5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600011ed60, eref4=60600011b5e0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5739379194e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011ad40, data5= -5.0000000000e+00 -6.1354804637e-17 -5.0100000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600011e880, data5= -5.0000000000e+00 1.2270960927e-16 5.0100000000e-01 Computing analytic sensitivities (if possible) for ibody=7 WARNING:: dxyz mismatch: inode= 7 ( 0.169032 -0.000000 -1.000000) iend = 11 ( 0.169031 -0.000000 -1.000000) err=( -0.000001 -0.000000 -0.000000) WARNING:: dxyz mismatch: inode= 7 ( 0.169032 -0.000000 -1.000000) ibeg = 14 ( 0.169031 -0.000000 -1.000000) err=( -0.000001 0.000000 -0.000000) WARNING:: dxyz mismatch: inode= 8 ( 0.169031 -0.000000 1.000000) ibeg = 12 ( 0.169032 -0.000000 1.000000) err=( 0.000001 -0.000000 -0.000000) Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(Rcyl) check complete with 0 total errors (errmax= 6.3880e-08) d(Edge)/d(Rcyl) check complete with 0 total errors (errmax= 3.3224e-05) d(Node)/d(Rcyl) check complete with 0 total errors (errmax= 1.7492e-07) ********************************************************* Starting tessellation sensitivity wrt "Rsph" ********************************************************* Generating perturbed configuration with delta-Rsph[1,1]= 0.00300000 Body x: -5.00000 5.00000 y: -3.00300 3.00300 z: -3.00300 3.00300 Node 1 x: 2.96108 y: -0.00000 z: -0.50000 Node 2 x: 5.00000 y: -0.00000 z: -0.50000 Node 3 x: 2.96108 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: 3.00300 Node 6 x: 0.00000 y: -0.00000 z: -3.00300 Node 7 x: -2.96108 y: 0.00000 z: -0.50000 Node 8 x: -2.96108 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: 2.96108 5.00000 y: -0.00000 -0.00000 z: -0.50000 -0.50000 Edge 2 x: 2.96108 2.96108 y: -0.50000 -0.00000 z: -0.50000 0.50000 Edge 3 x: 2.96108 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: 2.96108 2.96108 y: -0.00000 0.50000 z: -0.50000 0.50000 Edge 7 x: 0.00000 2.96108 y: -0.00000 -0.00000 z: 0.50000 3.00300 Edge 8 x: -0.00000 2.96108 y: -0.00000 0.00000 z: -3.00300 -0.50000 Edge 9 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00300 -3.00300 Edge 10 x: -2.96108 0.00000 y: -0.00000 0.00000 z: -3.00300 -0.50000 Edge 11 x: -2.96108 -2.96108 y: -0.50000 0.00000 z: -0.50000 0.50000 Edge 12 x: -2.96108 0.00000 y: -0.00000 0.00000 z: 0.50000 3.00300 Edge 13 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00300 3.00300 Edge 14 x: -2.96108 -2.96108 y: 0.00000 0.50000 z: -0.50000 0.50000 Edge 15 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: -3.00300 -3.00300 Edge 16 x: 0.00000 0.00000 y: -0.00000 -0.00000 z: 3.00300 3.00300 Edge 17 x: -5.00000 -2.96108 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 -2.96108 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: 2.96108 5.00000 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 2 x: 2.96108 5.00000 y: -0.00000 0.50000 z: -0.50000 0.50000 Face 3 x: -2.96108 2.96108 y: -3.00300 0.00000 z: -3.00300 3.00300 Face 4 x: 5.00000 5.00000 y: -0.50000 0.50000 z: -0.50000 0.50000 Face 5 x: -2.96108 2.96108 y: -0.00000 3.00300 z: -3.00300 3.00300 Face 6 x: -5.00000 -2.96108 y: -0.50000 0.00000 z: -0.50000 0.50000 Face 7 x: -5.00000 -2.96108 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 2.96108 -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 2.96108 -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 3.00300 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 -3.00300 Edges -> 8 9 10 15 Faces -> 3 5 __trace__ = 2 2 3 6 4 6 _nedge = 4 _nodeID = 6 7 4 4 -2.96108 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 -2.96108 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 7.96108 10.00000 2.03892 60600011bd60 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 60600011b8e0 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 7.96108 10.00000 2.03892 60600012aa60 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 606000129020 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 60600012a460 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 60600012a520 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 6.45046 7.85398 4.21476 60600011ae60 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 6.11591 4.21476 6060001292c0 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 -0.16728 4.21476 606000119a80 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 60600011d860 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 0.16728 1.57080 4.21476 60600011fa20 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 60600011ca20 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 2.03892 2.03892 60600011fb40 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 60600011fc00 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 2.03892 2.03892 60600012b060 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 60600012a100 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 7.96108 10.00000 60600012a040 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 7.96108 10.00000 60600011a920 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 60600011ca80 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 606000125c00 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 606000125b40 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 2.03892 606000126aa0 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 2.03892 606000119120 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 606000126440 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=606000147560, eref0=0 (0:0) . oclass1= 24 (shell) mtype1= 4 (closed) obj=606000138500, eref1=0 (0:0) . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600013d000, eref2=60600014d380 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013d7e0, eref3=60600014d380 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600014bb20, eref4=60600013b500 (11:1) . . . . < trange= 7.96108 10.00000, arcLength= 2.0389175966e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000147500, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000139be0, eref4=6060001499c0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600013d6c0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000147500, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001383e0, eref4=606000149e40 (11:1) . . . . < trange= 7.96108 10.00000, arcLength= 2.0389175966e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600013d6c0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600013a180, eref4=6060001384a0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000137a20, eref2=60600013a1e0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013e260, eref3=60600013a1e0 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600014bb20, eref4=60600013b500 (11:1) . . . . < trange= 7.96108 10.00000, arcLength= 2.0389175966e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000147500, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000149a80, eref4=60600014b280 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=6060001383e0, eref4=606000149e40 (11:1) . . . . < trange= 7.96108 10.00000, arcLength= 2.0389175966e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600013d6c0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146fc0, eref4=60600014b1c0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000147500, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600013d6c0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000149c00, eref2=606000136fa0 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013d900, eref3=606000136fa0 (0:0) . . . < senses= 1 -1 -1 1 -1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000147ce0, eref4=606000139dc0 (11:2) . . . . < trange= 6.45046 7.85398, arcLength= 4.2147618728e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000139ee0, data5= 1.8388071689e-16 -4.5037786273e-32 3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=60600013a7e0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000139ee0, data5= 1.8388071689e-16 -4.5037786273e-32 3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000139c40, eref4=60600013e740 (11:8) . . . . < trange= 0.16728 1.57080, arcLength= 4.2147610196e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000139ee0, data5= 1.8388071689e-16 -4.5037786273e-32 3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000136ee0, eref4=60600013dea0 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600013a780, eref4=60600013e380 (11:8) . . . . < trange= -1.57080 -0.16728, arcLength= 4.2147610196e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b820, data5= 1.8388071689e-16 -4.5037786273e-32 -3.0030000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=606000146ea0, eref4=0 (0:0) . . . . < trange= 3.14159 6.28319, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b820, data5= 1.8388071689e-16 -4.5037786273e-32 -3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000149d20, eref4=60600014ba60 (11:2) . . . . < trange= 4.71239 6.11591, arcLength= 4.2147618728e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b820, data5= 1.8388071689e-16 -4.5037786273e-32 -3.0030000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600013a180, eref4=6060001384a0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000137b40, eref2=6060001481c0 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013b560, eref3=0 (0:0) . . . < senses= 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000139be0, eref4=6060001499c0 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600013d6c0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000147500, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000146fc0, eref4=60600014b1c0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000147500, data5= 5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600013d6c0, data5= 5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600013e440, eref2=606000147d40 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013e1a0, eref3=606000147d40 (0:0) . . . < senses= 1 -1 -1 -1 -1 1 1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000139c40, eref4=60600013e740 (11:8) . . . . < trange= 0.16728 1.57080, arcLength= 4.2147610196e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000139ee0, data5= 1.8388071689e-16 -4.5037786273e-32 3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=6060001477a0, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000139ee0, data5= 1.8388071689e-16 -4.5037786273e-32 3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000147ce0, eref4=606000139dc0 (11:2) . . . . < trange= 6.45046 7.85398, arcLength= 4.2147618728e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000139ee0, data5= 1.8388071689e-16 -4.5037786273e-32 3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000149a80, eref4=60600014b280 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138620, data5= 2.9610824034e+00 -3.0139566878e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000149d20, eref4=60600014ba60 (11:2) . . . . < trange= 4.71239 6.11591, arcLength= 4.2147618728e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b820, data5= 1.8388071689e-16 -4.5037786273e-32 -3.0030000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b580, data5= 2.9610824034e+00 -3.9324417872e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 5 (degenerate) obj=606000139ca0, eref4=0 (0:0) . . . . < trange= 0.00000 3.14159, arcLength= 0.0000000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b820, data5= 1.8388071689e-16 -4.5037786273e-32 -3.0030000000e+00 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600013a780, eref4=60600013e380 (11:8) . . . . < trange= -1.57080 -0.16728, arcLength= 4.2147610196e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b820, data5= 1.8388071689e-16 -4.5037786273e-32 -3.0030000000e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000137420, eref4=606000136f40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=60600013a120, eref2=606000145e80 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013b260, eref3=606000145e80 (0:0) . . . < senses= 1 -1 -1 1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600014a9e0, eref4=60600013dae0 (11:1) . . . . < trange= 0.00000 2.03892, arcLength= 2.0389181255e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b160, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000136ee0, eref4=60600013dea0 (11:2) . . . . < trange= -0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000137780, eref4=606000148160 (11:1) . . . . < trange= 0.00000 2.03892, arcLength= 2.0389181255e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138b00, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600014a920, eref4=60600013b680 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138b00, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b160, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . oclass2= 23 (face) mtype2= 1 (sforward) obj=606000138b60, eref2=606000139f40 (12:6) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013d840, eref3=606000139f40 (0:0) . . . < senses=-1 1 1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600014a9e0, eref4=60600013dae0 (11:1) . . . . < trange= 0.00000 2.03892, arcLength= 2.0389181255e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b160, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600013d720, eref4=6060001469c0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b160, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138b00, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000137780, eref4=606000148160 (11:1) . . . . < trange= 0.00000 2.03892, arcLength= 2.0389181255e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138b00, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=606000137420, eref4=606000136f40 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000149ba0, data5= -2.9610818745e+00 1.5069780200e-16 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b0a0, data5= -2.9610818745e+00 2.4254631194e-16 5.0000000000e-01 . . oclass2= 23 (face) mtype2= -1 (sreverse) obj=606000138bc0, eref2=60600014ae00 (12:1) . . < senses= 1 . . . oclass3= 22 (loop) mtype3= 4 (closed) obj=60600013b9e0, eref3=0 (0:0) . . . < senses=-1 -1 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600014a920, eref4=60600013b680 (11:2) . . . . < trange= 0.00000 3.14159, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138b00, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b160, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . oclass4= 21 (edge) mtype4= 2 (twonode) obj=60600013d720, eref4=6060001469c0 (11:2) . . . . < trange= 3.14159 6.28319, arcLength= 1.5707963268e+00 . . . . . oclass5= 20 (node) mtype5= 0, obj=60600014b160, data5= -5.0000000000e+00 -6.1232339957e-17 -5.0000000000e-01 . . . . . oclass5= 20 (node) mtype5= 0, obj=606000138b00, data5= -5.0000000000e+00 1.2246467991e-16 5.0000000000e-01 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(Rsph) check complete with 0 total errors (errmax= 1.5956e-08) d(Edge)/d(Rsph) check complete with 0 total errors (errmax= 1.6576e-05) d(Node)/d(Rsph) check complete with 0 total errors (errmax= 4.3425e-08) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.050 sec Sensitivity checks complete with 0 total errors (max tess err= 3.3224e-05) with 0 suppressions real 0m2.371s user 0m1.986s sys 0m0.445s ++ set +x -------------------------------------------------------------------------------------------------- ( 216 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designT1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(L) check complete with 0 total errors (errmax= 9.6021e-17) d(Edge)/d(L) check complete with 0 total errors (errmax= 9.6021e-17) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(L) check complete with 0 total errors (errmax= 2.0667e-07) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.0667e-07) d(Node)/d(L) check complete with 0 total errors (errmax= 2.0667e-07) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(H) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(H) check complete with 0 total errors (errmax= 2.0667e-07) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.0667e-07) d(Node)/d(H) check complete with 0 total errors (errmax= 2.0667e-07) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=1 Computing distances of perturbed points from perturbed configuration for ibody=1 d(Face)/d(D) check complete with 0 total errors (errmax= 2.2662e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=2 Computing distances of perturbed points from perturbed configuration for ibody=2 d(Face)/d(D) check complete with 0 total errors (errmax= 2.0667e-07) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.0667e-07) d(Node)/d(D) check complete with 0 total errors (errmax= 2.0667e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.010 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0667e-07) with 0 suppressions real 0m1.677s user 0m1.839s sys 0m0.124s ++ set +x -------------------------------------------------------------------------------------------------- ( 217 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designT2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(L) check complete with 0 total errors (errmax= 9.6021e-17) d(Edge)/d(L) check complete with 0 total errors (errmax= 9.6021e-17) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(L) check complete with 0 total errors (errmax= 2.0667e-07) d(Edge)/d(L) check complete with 0 total errors (errmax= 2.0667e-07) d(Node)/d(L) check complete with 0 total errors (errmax= 2.0667e-07) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(H) check complete with 0 total errors (errmax= 4.7292e-17) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.7292e-17) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(H) check complete with 0 total errors (errmax= 2.0667e-07) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.0667e-07) d(Node)/d(H) check complete with 0 total errors (errmax= 2.0667e-07) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=4 Computing distances of perturbed points from perturbed configuration for ibody=4 d(Face)/d(D) check complete with 0 total errors (errmax= 2.2662e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.2662e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 d(Face)/d(D) check complete with 0 total errors (errmax= 2.0667e-07) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.0667e-07) d(Node)/d(D) check complete with 0 total errors (errmax= 2.0667e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.009 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0667e-07) with 0 suppressions real 0m1.298s user 0m1.710s sys 0m0.186s ++ set +x -------------------------------------------------------------------------------------------------- ( 218 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU1a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "offset" ********************************************************* Generating perturbed configuration with delta-offset[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.005 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.563s user 0m0.224s sys 0m0.189s ++ set +x -------------------------------------------------------------------------------------------------- ( 219 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU1b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "offset" ********************************************************* Generating perturbed configuration with delta-offset[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.005 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.598s user 0m0.273s sys 0m0.159s ++ set +x -------------------------------------------------------------------------------------------------- ( 220 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU1c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xbeg" ********************************************************* Generating perturbed configuration with delta-xbeg[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(xbeg) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "offset" ********************************************************* Generating perturbed configuration with delta-offset[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(offset) check complete with 0 total errors (errmax= 4.4409e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.004 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.341s user 0m0.219s sys 0m0.159s ++ set +x -------------------------------------------------------------------------------------------------- ( 221 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU2a.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* ... skipping Body 4 Generating perturbed configuration with delta-dx[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* ... skipping Body 4 Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* ... skipping Body 4 Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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 ocsmGetTessVel -> 0.089 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m1.295s user 0m1.024s sys 0m0.340s ++ set +x -------------------------------------------------------------------------------------------------- ( 222 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU2b.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* ... skipping Body 7 Generating perturbed configuration with delta-dx[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 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= 0.0000e+00) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* ... skipping Body 7 Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* ... skipping Body 7 Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 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 ocsmGetTessVel -> 0.062 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m0.917s user 0m0.835s sys 0m0.218s ++ set +x -------------------------------------------------------------------------------------------------- ( 223 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designU2c.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* ... skipping Body 4 Generating perturbed configuration with delta-dx[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* ... skipping Body 4 Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dz" ********************************************************* ... skipping Body 4 Generating perturbed configuration with delta-dz[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=5 Computing distances of perturbed points from perturbed configuration for ibody=5 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 ocsmGetTessVel -> 0.050 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m0.792s user 0m0.811s sys 0m0.242s ++ set +x -------------------------------------------------------------------------------------------------- ( 224 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designV1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(L) check complete with 0 total errors (errmax= 7.2486e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 7.2486e-09) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(D) check complete with 0 total errors (errmax= 2.0221e-08) d(Edge)/d(D) check complete with 0 total errors (errmax= 2.0221e-08) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "Z" ********************************************************* Generating perturbed configuration with delta-Z[1,1]= 0.04000000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(Z) check complete with 0 total errors (errmax= 6.1422e-07) d(Edge)/d(Z) check complete with 0 total errors (errmax= 1.3950e-06) d(Node)/d(Z) check complete with 0 total errors (errmax= 1.3950e-06) ********************************************************* Starting tessellation sensitivity wrt "xA" ********************************************************* Generating perturbed configuration with delta-xA[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xA) check complete with 0 total errors (errmax= 2.6024e-16) d(Edge)/d(xA) check complete with 0 total errors (errmax= 2.6753e-16) d(Node)/d(xA) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yA" ********************************************************* Generating perturbed configuration with delta-yA[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(yA) check complete with 0 total errors (errmax= 3.9660e-16) d(Edge)/d(yA) check complete with 0 total errors (errmax= 3.8614e-16) d(Node)/d(yA) check complete with 0 total errors (errmax= 2.2204e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.093 sec Sensitivity checks complete with 0 total errors (max tess err= 1.3950e-06) with 0 suppressions real 0m0.469s user 0m0.376s sys 0m0.122s ++ set +x -------------------------------------------------------------------------------------------------- ( 225 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "dx" ********************************************************* Generating perturbed configuration with delta-dx[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(dx) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "dy" ********************************************************* Generating perturbed configuration with delta-dy[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(dy) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z" ********************************************************* Generating perturbed configuration with delta-z[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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= 5.5077e-17) d(Node)/d(z) check complete with 0 total errors (errmax= 1.1015e-16) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.124 sec Sensitivity checks complete with 0 total errors (max tess err= 1.1016e-16) with 0 suppressions real 0m2.224s user 0m1.114s sys 0m0.323s ++ set +x -------------------------------------------------------------------------------------------------- ( 226 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00200000 WE SHOULD NOT GET HERE 50911: jedge=9 ================================================================= ==2972957==ERROR: LeakSanitizer: detected memory leaks Direct leak of 32 byte(s) in 1 object(s) allocated from: #0 0x7fb5330b4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7fb532730978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7fb5323a5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7fb532d51e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7fb532d3fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7fb532c8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x55a5f21ccd33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7fb531e29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 32 byte(s) leaked in 1 allocation(s). real 0m1.658s user 0m0.586s sys 0m0.278s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 227 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00200000 WE SHOULD NOT GET HERE 50911: jedge=23 ================================================================= ==2972981==ERROR: LeakSanitizer: detected memory leaks Direct leak of 96 byte(s) in 1 object(s) allocated from: #0 0x7fef58cb4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7fef58330978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7fef57fa5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7fef58951e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7fef5893fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7fef5888b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x562852930d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7fef57a29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 96 byte(s) leaked in 1 allocation(s). real 0m1.389s user 0m0.803s sys 0m0.318s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 228 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00200000 WE SHOULD NOT GET HERE 50911: jedge=23 ================================================================= ==2973015==ERROR: LeakSanitizer: detected memory leaks Direct leak of 96 byte(s) in 1 object(s) allocated from: #0 0x7f3c034b4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f3c02b30978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f3c027a5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f3c03151e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f3c0313fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f3c0308b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x556c3e759d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7f3c02229d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 96 byte(s) leaked in 1 allocation(s). real 0m1.509s user 0m0.981s sys 0m0.401s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 229 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00200000 WE SHOULD NOT GET HERE 50911: jedge=23 ================================================================= ==2973171==ERROR: LeakSanitizer: detected memory leaks Direct leak of 96 byte(s) in 1 object(s) allocated from: #0 0x7f821cab4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f821c130978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f821bda5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f821c751e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f821c73fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f821c68b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x563dd0e8ed33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7f821b829d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 96 byte(s) leaked in 1 allocation(s). real 0m1.435s user 0m0.892s sys 0m0.348s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 230 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designW5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xcut" ********************************************************* Generating perturbed configuration with delta-xcut[1,1]= 0.00200000 WE SHOULD NOT GET HERE 50911: jedge=23 ================================================================= ==2973314==ERROR: LeakSanitizer: detected memory leaks Direct leak of 96 byte(s) in 1 object(s) allocated from: #0 0x7fd6ad8b4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7fd6acf30978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7fd6acba5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7fd6ad551e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7fd6ad53fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7fd6ad48b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x55c4f4979d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7fd6ac629d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 96 byte(s) leaked in 1 allocation(s). real 0m1.375s user 0m0.799s sys 0m0.247s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 231 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(L) check complete with 0 total errors (errmax= 6.9442e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(R) check complete with 0 total errors (errmax= 4.5331e-16) d(Edge)/d(R) check complete with 0 total errors (errmax= 1.1035e-16) d(Node)/d(R) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xA" ********************************************************* Generating perturbed configuration with delta-xA[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xA) check complete with 0 total errors (errmax= 4.3309e-16) d(Edge)/d(xA) check complete with 0 total errors (errmax= 2.6814e-16) d(Node)/d(xA) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yA" ********************************************************* Generating perturbed configuration with delta-yA[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(yA) check complete with 0 total errors (errmax= 1.3965e-07) d(Edge)/d(yA) check complete with 0 total errors (errmax= 3.8369e-07) d(Node)/d(yA) check complete with 0 total errors (errmax= 3.8369e-07) ********************************************************* Starting tessellation sensitivity wrt "xB" ********************************************************* Generating perturbed configuration with delta-xB[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(xB) check complete with 0 total errors (errmax= 4.6690e-16) d(Edge)/d(xB) check complete with 0 total errors (errmax= 4.5865e-16) d(Node)/d(xB) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yB" ********************************************************* Generating perturbed configuration with delta-yB[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=6 Computing distances of perturbed points from perturbed configuration for ibody=6 d(Face)/d(yB) check complete with 0 total errors (errmax= 1.3967e-07) d(Edge)/d(yB) check complete with 0 total errors (errmax= 3.8385e-07) d(Node)/d(yB) check complete with 0 total errors (errmax= 3.8385e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.022 sec Sensitivity checks complete with 0 total errors (max tess err= 3.8385e-07) with 0 suppressions real 0m1.237s user 0m0.672s sys 0m0.221s ++ set +x -------------------------------------------------------------------------------------------------- ( 232 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 WE SHOULD NOT GET HERE 50911: jedge=33 ================================================================= ==2973420==ERROR: LeakSanitizer: detected memory leaks Direct leak of 1920 byte(s) in 12 object(s) allocated from: #0 0x7fb8820b4a57 in __interceptor_calloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:154 #1 0x7fb87fdbc48e in Standard_MMgrRaw::Allocate(unsigned long) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x1bc48e) #2 0x7fb880d6e397 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45397) #3 0x7fb87af9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7fb87afe5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7fb87afecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7fb87b02d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7fb87ddfc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7fb87efbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7fb87efc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7fb87f3b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7fb87f3a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7fb87fd79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7fb87fd7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7fb87fd7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7fb880e94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 1728 byte(s) in 12 object(s) allocated from: #0 0x7fb8820b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7fb880d6c8c1 in Geom2d_BSplineCurve::UpdateKnots() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x438c1) #2 0x7fb880d6ec5e in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45c5e) #3 0x7fb87af9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7fb87afe5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7fb87afecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7fb87b02d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7fb87ddfc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7fb87efbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7fb87efc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7fb87f3b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7fb87f3a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7fb87fd79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7fb87fd7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7fb87fd7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7fb880e94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 288 byte(s) in 1 object(s) allocated from: #0 0x7fb8820b4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7fb881730978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7fb8813a5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7fb881d51e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7fb881d3fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7fb881c8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x55fb60a56d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7fb880e29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 224 byte(s) in 12 object(s) allocated from: #0 0x7fb8820b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7fb880d6e6fd in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x456fd) #2 0x7fb87af9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7fb87afe5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7fb87afecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7fb87b02d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7fb87ddfc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7fb87efbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7fb87efc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7fb87f3b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7fb87f3a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7fb87fd79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7fb87fd7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7fb87fd7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7fb880e94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 112 byte(s) in 12 object(s) allocated from: #0 0x7fb8820b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7fb880d6ea08 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45a08) #2 0x7fb87af9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7fb87afe5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7fb87afecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7fb87b02d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7fb87ddfc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7fb87efbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7fb87efc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7fb87f3b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7fb87f3a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7fb87fd79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7fb87fd7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7fb87fd7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7fb880e94ac2 in start_thread nptl/pthread_create.c:442 SUMMARY: AddressSanitizer: 4272 byte(s) leaked in 49 allocation(s). real 0m2.787s user 0m1.611s sys 0m0.512s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 233 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(L) check complete with 0 total errors (errmax= 6.4799e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 4.4409e-16) ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(R) check complete with 0 total errors (errmax= 5.7313e-16) d(Edge)/d(R) check complete with 0 total errors (errmax= 5.9967e-06) d(Node)/d(R) check complete with 0 total errors (errmax= 1.9219e-07) ********************************************************* Starting tessellation sensitivity wrt "xA" ********************************************************* Generating perturbed configuration with delta-xA[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xA) check complete with 0 total errors (errmax= 2.0589e-08) d(Edge)/d(xA) check complete with 0 total errors (errmax= 8.5765e-06) d(Node)/d(xA) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "yA" ********************************************************* Generating perturbed configuration with delta-yA[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(yA) check complete with 0 total errors (errmax= 3.5308e-07) d(Edge)/d(yA) check complete with 0 total errors (errmax= 2.0475e-05) d(Node)/d(yA) check complete with 0 total errors (errmax= 1.7754e-06) ********************************************************* Starting tessellation sensitivity wrt "xB" ********************************************************* Generating perturbed configuration with delta-xB[1,1]= 0.00400000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(xB) check complete with 0 total errors (errmax= 2.7605e-07) d(Edge)/d(xB) check complete with 0 total errors (errmax= 1.3686e-04) d(Node)/d(xB) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "yB" ********************************************************* Generating perturbed configuration with delta-yB[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(yB) check complete with 0 total errors (errmax= 1.8046e-07) d(Edge)/d(yB) check complete with 0 total errors (errmax= 4.1014e-05) d(Node)/d(yB) check complete with 0 total errors (errmax= 8.8948e-07) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.550 sec Sensitivity checks complete with 2 total errors (max tess err= 1.3686e-04) with 0 suppressions real 0m3.492s user 0m2.871s sys 0m0.691s ++ set +x -------------------------------------------------------------------------------------------------- ( 234 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 WE SHOULD NOT GET HERE 50911: jedge=33 ================================================================= ==2973716==ERROR: LeakSanitizer: detected memory leaks Direct leak of 1920 byte(s) in 12 object(s) allocated from: #0 0x7f98facb4a57 in __interceptor_calloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:154 #1 0x7f98f89bc48e in Standard_MMgrRaw::Allocate(unsigned long) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x1bc48e) #2 0x7f98f996e397 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45397) #3 0x7f98f3b9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7f98f3be5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7f98f3becda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7f98f3c2d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7f98f69fc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7f98f7bbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7f98f7bc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7f98f7fb21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7f98f7fa8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7f98f8979306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7f98f897b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7f98f897ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7f98f9a94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 1728 byte(s) in 12 object(s) allocated from: #0 0x7f98facb6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f98f996c8c1 in Geom2d_BSplineCurve::UpdateKnots() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x438c1) #2 0x7f98f996ec5e in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45c5e) #3 0x7f98f3b9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7f98f3be5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7f98f3becda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7f98f3c2d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7f98f69fc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7f98f7bbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7f98f7bc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7f98f7fb21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7f98f7fa8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7f98f8979306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7f98f897b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7f98f897ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7f98f9a94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 960 byte(s) in 6 object(s) allocated from: #0 0x7f98facb4a57 in __interceptor_calloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:154 #1 0x7f98f89bc48e in Standard_MMgrRaw::Allocate(unsigned long) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x1bc48e) #2 0x7f98f996e397 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45397) #3 0x7f98f9970540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #4 0x7f98f5661aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #5 0x7f98f563a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #6 0x7f98f5680663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #7 0x7f98f5682429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #8 0x7f98fa02cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #9 0x7f98faa39c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #10 0x7f98fa95040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #11 0x7f98fa93fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #12 0x7f98fa88b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #13 0x555743073d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #14 0x7f98f9a29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 864 byte(s) in 6 object(s) allocated from: #0 0x7f98facb6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f98f996c8c1 in Geom2d_BSplineCurve::UpdateKnots() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x438c1) #2 0x7f98f996ec5e in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45c5e) #3 0x7f98f9970540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #4 0x7f98f5661aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #5 0x7f98f563a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #6 0x7f98f5680663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #7 0x7f98f5682429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #8 0x7f98fa02cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #9 0x7f98faa39c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #10 0x7f98fa95040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #11 0x7f98fa93fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #12 0x7f98fa88b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #13 0x555743073d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #14 0x7f98f9a29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 288 byte(s) in 1 object(s) allocated from: #0 0x7f98facb4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f98fa330978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f98f9fa5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f98fa951e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f98fa93fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f98fa88b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x555743073d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7f98f9a29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 224 byte(s) in 12 object(s) allocated from: #0 0x7f98facb6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f98f996e6fd in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x456fd) #2 0x7f98f3b9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7f98f3be5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7f98f3becda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7f98f3c2d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7f98f69fc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7f98f7bbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7f98f7bc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7f98f7fb21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7f98f7fa8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7f98f8979306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7f98f897b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7f98f897ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7f98f9a94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 112 byte(s) in 6 object(s) allocated from: #0 0x7f98facb6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f98f996e6fd in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x456fd) #2 0x7f98f9970540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #3 0x7f98f5661aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #4 0x7f98f563a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #5 0x7f98f5680663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #6 0x7f98f5682429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #7 0x7f98fa02cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #8 0x7f98faa39c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #9 0x7f98fa95040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #10 0x7f98fa93fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #11 0x7f98fa88b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #12 0x555743073d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #13 0x7f98f9a29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 112 byte(s) in 12 object(s) allocated from: #0 0x7f98facb6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f98f996ea08 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45a08) #2 0x7f98f3b9bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7f98f3be5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7f98f3becda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7f98f3c2d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7f98f69fc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7f98f7bbae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7f98f7bc2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7f98f7fb21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7f98f7fa8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7f98f8979306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7f98f897b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7f98f897ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7f98f9a94ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 56 byte(s) in 6 object(s) allocated from: #0 0x7f98facb6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f98f996ea08 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45a08) #2 0x7f98f9970540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #3 0x7f98f5661aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #4 0x7f98f563a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #5 0x7f98f5680663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #6 0x7f98f5682429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #7 0x7f98fa02cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #8 0x7f98faa39c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #9 0x7f98fa95040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #10 0x7f98fa93fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #11 0x7f98fa88b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #12 0x555743073d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #13 0x7f98f9a29d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 6264 byte(s) leaked in 73 allocation(s). real 0m2.735s user 0m2.246s sys 0m0.578s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 235 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 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 tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(R) check complete with 0 total errors (errmax= 7.5610e-16) d(Edge)/d(R) check complete with 0 total errors (errmax= 2.1626e-16) d(Node)/d(R) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "xA" ********************************************************* Generating perturbed configuration with delta-xA[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xA) check complete with 0 total errors (errmax= 8.0096e-08) d(Edge)/d(xA) check complete with 0 total errors (errmax= 1.1871e-07) d(Node)/d(xA) check complete with 0 total errors (errmax= 1.1871e-07) ********************************************************* Starting tessellation sensitivity wrt "yA" ********************************************************* Generating perturbed configuration with delta-yA[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(yA) check complete with 0 total errors (errmax= 8.1436e-07) d(Edge)/d(yA) check complete with 0 total errors (errmax= 1.3623e-06) d(Node)/d(yA) check complete with 0 total errors (errmax= 1.3623e-06) ********************************************************* Starting tessellation sensitivity wrt "xB" ********************************************************* Generating perturbed configuration with delta-xB[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xB) check complete with 0 total errors (errmax= 1.7259e-06) d(Edge)/d(xB) check complete with 0 total errors (errmax= 2.7386e-06) d(Node)/d(xB) check complete with 0 total errors (errmax= 2.7386e-06) ********************************************************* Starting tessellation sensitivity wrt "xD" ********************************************************* Generating perturbed configuration with delta-xD[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration for ibody=3 d(Face)/d(xD) check complete with 0 total errors (errmax= 4.1499e-08) d(Edge)/d(xD) check complete with 0 total errors (errmax= 7.4260e-08) d(Node)/d(xD) check complete with 0 total errors (errmax= 7.4260e-08) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.690 sec Sensitivity checks complete with 0 total errors (max tess err= 2.7386e-06) with 0 suppressions real 0m1.337s user 0m0.693s sys 0m0.576s ++ set +x -------------------------------------------------------------------------------------------------- ( 236 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX6.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 WE SHOULD NOT GET HERE 50911: jedge=37 ================================================================= ==2974578==ERROR: LeakSanitizer: detected memory leaks Direct leak of 3200 byte(s) in 24 object(s) allocated from: #0 0x7f16fa2b4a57 in __interceptor_calloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:154 #1 0x7f16f7fbc48e in Standard_MMgrRaw::Allocate(unsigned long) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x1bc48e) #2 0x7f16f936e397 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45397) #3 0x7f16f319bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7f16f31e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7f16f31ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7f16f322d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7f16f5ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7f16f71bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7f16f71c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7f16f75b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7f16f75a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7f16f7f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7f16f7f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7f16f7f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7f16f9094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 3008 byte(s) in 24 object(s) allocated from: #0 0x7f16fa2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f16f936c8c1 in Geom2d_BSplineCurve::UpdateKnots() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x438c1) #2 0x7f16f936ec5e in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45c5e) #3 0x7f16f319bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7f16f31e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7f16f31ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7f16f322d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7f16f5ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7f16f71bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7f16f71c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7f16f75b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7f16f75a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7f16f7f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7f16f7f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7f16f7f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7f16f9094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 416 byte(s) in 24 object(s) allocated from: #0 0x7f16fa2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f16f936e6fd in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x456fd) #2 0x7f16f319bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7f16f31e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7f16f31ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7f16f322d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7f16f5ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7f16f71bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7f16f71c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7f16f75b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7f16f75a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7f16f7f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7f16f7f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7f16f7f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7f16f9094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 352 byte(s) in 1 object(s) allocated from: #0 0x7f16fa2b4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f16f9930978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f16f95a5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f16f9f51e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f16f9f3fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f16f9e8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x561789640d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7f16f9029d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 208 byte(s) in 24 object(s) allocated from: #0 0x7f16fa2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f16f936ea08 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45a08) #2 0x7f16f319bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7f16f31e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7f16f31ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7f16f322d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7f16f5ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7f16f71bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7f16f71c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7f16f75b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7f16f75a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7f16f7f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7f16f7f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7f16f7f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7f16f9094ac2 in start_thread nptl/pthread_create.c:442 SUMMARY: AddressSanitizer: 7184 byte(s) leaked in 97 allocation(s). real 0m2.385s user 0m1.917s sys 0m1.066s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 237 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX7.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(L) check complete with 0 total errors (errmax= 5.5235e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.5348e-07) d(Node)/d(L) check complete with 0 total errors (errmax= 1.9669e-06) ********************************************************* Starting tessellation sensitivity wrt "R" ********************************************************* Generating perturbed configuration with delta-R[1,1]= 0.00250000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(R) check complete with 0 total errors (errmax= 6.2609e-16) d(Edge)/d(R) check complete with 0 total errors (errmax= 1.0337e-04) d(Node)/d(R) check complete with 0 total errors (errmax= 1.9348e-06) ********************************************************* Starting tessellation sensitivity wrt "xA" ********************************************************* Generating perturbed configuration with delta-xA[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xA) check complete with 0 total errors (errmax= 8.0055e-08) d(Edge)/d(xA) check complete with 0 total errors (errmax= 2.0996e-05) d(Node)/d(xA) check complete with 0 total errors (errmax= 1.6848e-07) ********************************************************* Starting tessellation sensitivity wrt "yA" ********************************************************* Generating perturbed configuration with delta-yA[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(yA) check complete with 0 total errors (errmax= 1.2392e-06) d(Edge)/d(yA) check complete with 0 total errors (errmax= 1.0582e-04) d(Node)/d(yA) check complete with 0 total errors (errmax= 4.1708e-06) ********************************************************* Starting tessellation sensitivity wrt "xB" ********************************************************* Generating perturbed configuration with delta-xB[1,1]= 0.00600000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xB) check complete with 0 total errors (errmax= 2.6937e-06) d(Edge)/d(xB) check complete with 0 total errors (errmax= 6.4775e-05) d(Node)/d(xB) check complete with 0 total errors (errmax= 3.5818e-06) ********************************************************* Starting tessellation sensitivity wrt "xD" ********************************************************* Generating perturbed configuration with delta-xD[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xD) check complete with 0 total errors (errmax= 4.1104e-08) d(Edge)/d(xD) check complete with 0 total errors (errmax= 1.6980e-04) d(Node)/d(xD) check complete with 0 total errors (errmax= 1.9368e-06) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 13.026 sec Sensitivity checks complete with 6 total errors (max tess err= 1.6980e-04) with 0 suppressions real 0m17.284s user 0m8.142s sys 0m10.154s ++ set +x -------------------------------------------------------------------------------------------------- ( 238 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designX8.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 WE SHOULD NOT GET HERE 50911: jedge=37 ================================================================= ==2978234==ERROR: LeakSanitizer: detected memory leaks Direct leak of 3200 byte(s) in 24 object(s) allocated from: #0 0x7f882c2b4a57 in __interceptor_calloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:154 #1 0x7f8829fbc48e in Standard_MMgrRaw::Allocate(unsigned long) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x1bc48e) #2 0x7f882af6e397 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45397) #3 0x7f882519bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7f88251e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7f88251ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7f882522d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7f8827ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7f88291bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7f88291c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7f88295b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7f88295a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7f8829f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7f8829f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7f8829f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7f882b094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 3008 byte(s) in 24 object(s) allocated from: #0 0x7f882c2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f882af6c8c1 in Geom2d_BSplineCurve::UpdateKnots() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x438c1) #2 0x7f882af6ec5e in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45c5e) #3 0x7f882519bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #4 0x7f88251e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #5 0x7f88251ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #6 0x7f882522d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #7 0x7f8827ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #8 0x7f88291bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #9 0x7f88291c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #10 0x7f88295b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #11 0x7f88295a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #12 0x7f8829f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #13 0x7f8829f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #14 0x7f8829f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #15 0x7f882b094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 1600 byte(s) in 12 object(s) allocated from: #0 0x7f882c2b4a57 in __interceptor_calloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:154 #1 0x7f8829fbc48e in Standard_MMgrRaw::Allocate(unsigned long) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x1bc48e) #2 0x7f882af6e397 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45397) #3 0x7f882af70540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #4 0x7f8826c61aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #5 0x7f8826c3a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #6 0x7f8826c80663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #7 0x7f8826c82429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #8 0x7f882b62cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #9 0x7f882c039c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #10 0x7f882bf5040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #11 0x7f882bf3fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #12 0x7f882be8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #13 0x55896c723d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #14 0x7f882b029d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 1504 byte(s) in 12 object(s) allocated from: #0 0x7f882c2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f882af6c8c1 in Geom2d_BSplineCurve::UpdateKnots() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x438c1) #2 0x7f882af6ec5e in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45c5e) #3 0x7f882af70540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #4 0x7f8826c61aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #5 0x7f8826c3a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #6 0x7f8826c80663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #7 0x7f8826c82429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #8 0x7f882b62cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #9 0x7f882c039c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #10 0x7f882bf5040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #11 0x7f882bf3fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #12 0x7f882be8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #13 0x55896c723d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #14 0x7f882b029d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 416 byte(s) in 24 object(s) allocated from: #0 0x7f882c2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f882af6e6fd in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x456fd) #2 0x7f882519bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7f88251e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7f88251ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7f882522d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7f8827ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7f88291bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7f88291c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7f88295b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7f88295a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7f8829f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7f8829f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7f8829f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7f882b094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 352 byte(s) in 1 object(s) allocated from: #0 0x7f882c2b4887 in __interceptor_malloc ../../../../src/libsanitizer/asan/asan_malloc_linux.cpp:145 #1 0x7f882b930978 in EG_alloc /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsMemory.c:23 #2 0x7f882b5a5a30 in EG_intersection /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsHLevel.cpp:3509 #3 0x7f882bf51e46 in buildBoolSubtr /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:31516 #4 0x7f882bf3fca1 in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28870 #5 0x7f882be8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #6 0x55896c723d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #7 0x7f882b029d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 208 byte(s) in 12 object(s) allocated from: #0 0x7f882c2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f882af6e6fd in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x456fd) #2 0x7f882af70540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #3 0x7f8826c61aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #4 0x7f8826c3a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #5 0x7f8826c80663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #6 0x7f8826c82429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #7 0x7f882b62cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #8 0x7f882c039c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #9 0x7f882bf5040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #10 0x7f882bf3fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #11 0x7f882be8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #12 0x55896c723d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #13 0x7f882b029d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 Direct leak of 208 byte(s) in 24 object(s) allocated from: #0 0x7f882c2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f882af6ea08 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45a08) #2 0x7f882519bbd7 in ProjLib_ComputeApprox::Perform(opencascade::handle<Adaptor3d_Curve> const&, opencascade::handle<Adaptor3d_Surface> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x19bbd7) #3 0x7f88251e5519 in ProjLib_ProjectedCurve::Perform(opencascade::handle<Adaptor3d_Curve> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1e5519) #4 0x7f88251ecda4 in ProjLib_ProjectedCurve::ProjLib_ProjectedCurve(opencascade::handle<Adaptor3d_Surface> const&, opencascade::handle<Adaptor3d_Curve> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x1ecda4) #5 0x7f882522d901 in GeomProjLib::Curve2d(opencascade::handle<Geom_Curve> const&, double, double, opencascade::handle<Geom_Surface> const&, double, double, double, double, double&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomBase.so.7.7+0x22d901) #6 0x7f8827ffc06b in GeomInt_IntSS::BuildPCurves(double, double, double&, opencascade::handle<Geom_Surface> const&, opencascade::handle<Geom_Curve> const&, opencascade::handle<Geom2d_Curve>&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKGeomAlgo.so.7.7+0x1fc06b) #7 0x7f88291bae7a in IntTools_FaceFace::MakeCurve(int, opencascade::handle<Adaptor3d_TopolTool> const&, opencascade::handle<Adaptor3d_TopolTool> const&, double) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1bae7a) #8 0x7f88291c2135 in IntTools_FaceFace::Perform(TopoDS_Face const&, TopoDS_Face const&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x1c2135) #9 0x7f88295b21ed in BOPAlgo_FaceFace::Perform() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5b21ed) #10 0x7f88295a8eeb in OSD_ThreadPool::Job<OSD_Parallel::FunctorWrapperForThreadPool<BOPTools_Parallel::Functor<NCollection_Vector<BOPAlgo_FaceFace> > > >::Perform(int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKBO.so.7.7+0x5a8eeb) #11 0x7f8829f79306 in OSD_ThreadPool::performJob(opencascade::handle<Standard_Failure>&, OSD_ThreadPool::JobInterface*, int) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x179306) #12 0x7f8829f7b962 in OSD_ThreadPool::EnumeratedThread::performThread() (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17b962) #13 0x7f8829f7ba4c in OSD_ThreadPool::EnumeratedThread::runThread(void*) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKernel.so.7.7+0x17ba4c) #14 0x7f882b094ac2 in start_thread nptl/pthread_create.c:442 Direct leak of 104 byte(s) in 12 object(s) allocated from: #0 0x7f882c2b6357 in operator new[](unsigned long) ../../../../src/libsanitizer/asan/asan_new_delete.cpp:102 #1 0x7f882af6ea08 in Geom2d_BSplineCurve::Geom2d_BSplineCurve(NCollection_Array1<gp_Pnt2d> const&, NCollection_Array1<double> const&, NCollection_Array1<int> const&, int, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x45a08) #2 0x7f882af70540 in Geom2d_BSplineCurve::Copy() const (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKG2d.so.7.7+0x47540) #3 0x7f8826c61aab in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Edge const&, TopoDS_Edge const&, NCollection_List<TopoDS_Shape> const&, NCollection_List<TopoDS_Shape> const&, bool, int&, bool) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x661aab) #4 0x7f8826c3a693 in BRepBuilderAPI_Sewing::SameParameterEdge(TopoDS_Shape const&, NCollection_Sequence<TopoDS_Shape> const&, NCollection_Sequence<bool> const&, NCollection_Map<TopoDS_Shape, TopTools_ShapeMapHasher>&, opencascade::handle<BRepTools_ReShape> const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x63a693) #5 0x7f8826c80663 in BRepBuilderAPI_Sewing::Merging(bool, Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x680663) #6 0x7f8826c82429 in BRepBuilderAPI_Sewing::Perform(Message_ProgressRange const&) (/home/jenkins/util/ESP/opencascade-7.7/trunk/build_address/install/lib/libTKTopAlgo.so.7.7+0x682429) #7 0x7f882b62cd90 in EG_sewFaces /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/EGADS/trunk/src/egadsTopo.cpp:8922 #8 0x7f882c039c6d in joinSheetBodys /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:54025 #9 0x7f882bf5040c in buildBoolJoin /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:30828 #10 0x7f882bf3fd7b in buildBoolean /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:28880 #11 0x7f882be8b3a6 in ocsmBuild /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/OpenCSM.c:9033 #12 0x55896c723d33 in main /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/OpenCSM/trunk/src/sensCSM.c:354 #13 0x7f882b029d8f in __libc_start_call_main ../sysdeps/nptl/libc_start_call_main.h:58 SUMMARY: AddressSanitizer: 10600 byte(s) leaked in 145 allocation(s). real 0m3.063s user 0m3.315s sys 0m2.851s ++ true ++ set +x -------------------------------------------------------------------------------------------------- ( 239 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY0.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 1.6653e-09) d(Edge)/d(L) check complete with 0 total errors (errmax= 1.6653e-09) d(Node)/d(L) check complete with 0 total errors (errmax= 1.6653e-09) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 3.0003e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 3.0003e-09) d(Node)/d(H) check complete with 0 total errors (errmax= 3.0003e-09) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 3.0376e-13) d(Edge)/d(T) check complete with 0 total errors (errmax= 3.0510e-13) d(Node)/d(T) check complete with 0 total errors (errmax= 3.0510e-13) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.0757e-16) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.100 sec Sensitivity checks complete with 0 total errors (max tess err= 3.0003e-09) with 0 suppressions real 0m12.954s user 0m4.192s sys 0m8.086s ++ set +x -------------------------------------------------------------------------------------------------- ( 240 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(L) check complete with 0 total errors (errmax= 3.2371e-10) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.2371e-10) d(Node)/d(L) check complete with 0 total errors (errmax= 3.1089e-10) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(H) check complete with 0 total errors (errmax= 4.1631e-09) d(Edge)/d(H) check complete with 0 total errors (errmax= 5.0978e-09) d(Node)/d(H) check complete with 0 total errors (errmax= 5.0978e-09) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(D) check complete with 0 total errors (errmax= 6.4099e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 6.4099e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.6136e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 5.7875e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(y0) check complete with 0 total errors (errmax= 7.5726e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 7.5726e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=8 Computing distances of perturbed points from perturbed configuration for ibody=8 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.0467e-16) d(Edge)/d(z0) check complete with 0 total errors (errmax= 9.0649e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.085 sec Sensitivity checks complete with 0 total errors (max tess err= 5.0978e-09) with 0 suppressions real 0m6.428s user 0m2.476s sys 0m3.759s ++ set +x -------------------------------------------------------------------------------------------------- ( 241 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 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= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00273205 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 8.3623e-06) d(Edge)/d(x1) check complete with 0 total errors (errmax= 8.3623e-06) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 9.0450e-06) d(Edge)/d(y1) check complete with 0 total errors (errmax= 9.0450e-06) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00253209 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 9.6419e-06) d(Edge)/d(x2) check complete with 0 total errors (errmax= 9.6419e-06) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00328558 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.0836e-05) d(Edge)/d(y2) check complete with 0 total errors (errmax= 1.0836e-05) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00134730 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x3) check complete with 0 total errors (errmax= 3.4935e-06) d(Edge)/d(x3) check complete with 0 total errors (errmax= 3.4761e-06) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y3" ********************************************************* Generating perturbed configuration with delta-y3[1,1]= 0.00396962 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y3) check complete with 0 total errors (errmax= 4.2179e-05) d(Edge)/d(y3) check complete with 0 total errors (errmax= 4.6135e-05) d(Node)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x4" ********************************************************* Generating perturbed configuration with delta-x4[1,1]= 0.00117892 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x4) check complete with 0 total errors (errmax= 2.6364e-06) d(Edge)/d(x4) check complete with 0 total errors (errmax= 2.6549e-06) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y4" ********************************************************* Generating perturbed configuration with delta-y4[1,1]= 0.00401473 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y4) check complete with 0 total errors (errmax= 7.1248e-05) d(Edge)/d(y4) check complete with 0 total errors (errmax= 6.5063e-05) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x5" ********************************************************* Generating perturbed configuration with delta-x5[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x5) check complete with 0 total errors (errmax= 3.4747e-07) d(Edge)/d(x5) check complete with 0 total errors (errmax= 3.4747e-07) d(Node)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y5" ********************************************************* Generating perturbed configuration with delta-y5[1,1]= 0.00495442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y5) check complete with 0 total errors (errmax= 5.7269e-06) d(Edge)/d(y5) check complete with 0 total errors (errmax= 5.7269e-06) d(Node)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x6" ********************************************************* Generating perturbed configuration with delta-x6[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x6) check complete with 0 total errors (errmax= 2.7286e-07) d(Edge)/d(x6) check complete with 0 total errors (errmax= 2.7286e-07) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y6" ********************************************************* Generating perturbed configuration with delta-y6[1,1]= 0.00645442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y6) check complete with 0 total errors (errmax= 2.5499e-06) d(Edge)/d(y6) check complete with 0 total errors (errmax= 2.5499e-06) d(Node)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x7" ********************************************************* Generating perturbed configuration with delta-x7[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x7) check complete with 0 total errors (errmax= 1.1524e-07) d(Edge)/d(x7) check complete with 0 total errors (errmax= 1.1524e-07) d(Node)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y7" ********************************************************* Generating perturbed configuration with delta-y7[1,1]= 0.00345442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y7) check complete with 0 total errors (errmax= 7.9104e-16) d(Edge)/d(y7) check complete with 0 total errors (errmax= 8.0652e-16) d(Node)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.251 sec Sensitivity checks complete with 0 total errors (max tess err= 7.1248e-05) with 0 suppressions real 0m1.592s user 0m0.838s sys 0m0.264s ++ set +x -------------------------------------------------------------------------------------------------- ( 242 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 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= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00273205 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 8.3623e-06) d(Edge)/d(y1) check complete with 0 total errors (errmax= 8.3623e-06) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 9.0450e-06) d(Edge)/d(z1) check complete with 0 total errors (errmax= 9.0450e-06) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00253209 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 9.6419e-06) d(Edge)/d(y2) check complete with 0 total errors (errmax= 9.6419e-06) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00328558 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 1.0836e-05) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.0836e-05) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y3" ********************************************************* Generating perturbed configuration with delta-y3[1,1]= 0.00134730 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y3) check complete with 0 total errors (errmax= 3.4935e-06) d(Edge)/d(y3) check complete with 0 total errors (errmax= 3.4761e-06) d(Node)/d(y3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z3" ********************************************************* Generating perturbed configuration with delta-z3[1,1]= 0.00396962 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z3) check complete with 0 total errors (errmax= 4.2179e-05) d(Edge)/d(z3) check complete with 0 total errors (errmax= 4.6135e-05) d(Node)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y4" ********************************************************* Generating perturbed configuration with delta-y4[1,1]= 0.00117892 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y4) check complete with 0 total errors (errmax= 2.6364e-06) d(Edge)/d(y4) check complete with 0 total errors (errmax= 2.6549e-06) d(Node)/d(y4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z4" ********************************************************* Generating perturbed configuration with delta-z4[1,1]= 0.00401473 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z4) check complete with 0 total errors (errmax= 7.1248e-05) d(Edge)/d(z4) check complete with 0 total errors (errmax= 6.5063e-05) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y5" ********************************************************* Generating perturbed configuration with delta-y5[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y5) check complete with 0 total errors (errmax= 3.4747e-07) d(Edge)/d(y5) check complete with 0 total errors (errmax= 3.4747e-07) d(Node)/d(y5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z5" ********************************************************* Generating perturbed configuration with delta-z5[1,1]= 0.00495442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z5) check complete with 0 total errors (errmax= 5.7269e-06) d(Edge)/d(z5) check complete with 0 total errors (errmax= 5.7269e-06) d(Node)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y6" ********************************************************* Generating perturbed configuration with delta-y6[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y6) check complete with 0 total errors (errmax= 2.7286e-07) d(Edge)/d(y6) check complete with 0 total errors (errmax= 2.7286e-07) d(Node)/d(y6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z6" ********************************************************* Generating perturbed configuration with delta-z6[1,1]= 0.00645442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z6) check complete with 0 total errors (errmax= 2.5499e-06) d(Edge)/d(z6) check complete with 0 total errors (errmax= 2.5499e-06) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y7" ********************************************************* Generating perturbed configuration with delta-y7[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y7) check complete with 0 total errors (errmax= 1.1524e-07) d(Edge)/d(y7) check complete with 0 total errors (errmax= 1.1524e-07) d(Node)/d(y7) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z7" ********************************************************* Generating perturbed configuration with delta-z7[1,1]= 0.00345442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z7) check complete with 0 total errors (errmax= 7.9104e-16) d(Edge)/d(z7) check complete with 0 total errors (errmax= 8.0652e-16) d(Node)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.234 sec Sensitivity checks complete with 0 total errors (max tess err= 7.1248e-05) with 0 suppressions real 0m1.209s user 0m0.760s sys 0m0.301s ++ set +x -------------------------------------------------------------------------------------------------- ( 243 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designY4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 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= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00273205 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 8.3623e-06) d(Edge)/d(z1) check complete with 0 total errors (errmax= 8.3623e-06) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 9.0450e-06) d(Edge)/d(x1) check complete with 0 total errors (errmax= 9.0450e-06) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00253209 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 9.6419e-06) d(Edge)/d(z2) check complete with 0 total errors (errmax= 9.6419e-06) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00328558 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.0836e-05) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.0836e-05) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z3" ********************************************************* Generating perturbed configuration with delta-z3[1,1]= 0.00134730 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z3) check complete with 0 total errors (errmax= 3.4935e-06) d(Edge)/d(z3) check complete with 0 total errors (errmax= 3.4761e-06) d(Node)/d(z3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x3" ********************************************************* Generating perturbed configuration with delta-x3[1,1]= 0.00396962 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x3) check complete with 0 total errors (errmax= 4.2179e-05) d(Edge)/d(x3) check complete with 0 total errors (errmax= 4.6135e-05) d(Node)/d(x3) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z4" ********************************************************* Generating perturbed configuration with delta-z4[1,1]= 0.00117892 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z4) check complete with 0 total errors (errmax= 2.6364e-06) d(Edge)/d(z4) check complete with 0 total errors (errmax= 2.6549e-06) d(Node)/d(z4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x4" ********************************************************* Generating perturbed configuration with delta-x4[1,1]= 0.00401473 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x4) check complete with 0 total errors (errmax= 7.1248e-05) d(Edge)/d(x4) check complete with 0 total errors (errmax= 6.5063e-05) d(Node)/d(x4) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z5" ********************************************************* Generating perturbed configuration with delta-z5[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z5) check complete with 0 total errors (errmax= 3.4747e-07) d(Edge)/d(z5) check complete with 0 total errors (errmax= 3.4747e-07) d(Node)/d(z5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x5" ********************************************************* Generating perturbed configuration with delta-x5[1,1]= 0.00495442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x5) check complete with 0 total errors (errmax= 5.7269e-06) d(Edge)/d(x5) check complete with 0 total errors (errmax= 5.7269e-06) d(Node)/d(x5) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z6" ********************************************************* Generating perturbed configuration with delta-z6[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z6) check complete with 0 total errors (errmax= 2.7286e-07) d(Edge)/d(z6) check complete with 0 total errors (errmax= 2.7286e-07) d(Node)/d(z6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x6" ********************************************************* Generating perturbed configuration with delta-x6[1,1]= 0.00645442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x6) check complete with 0 total errors (errmax= 2.5499e-06) d(Edge)/d(x6) check complete with 0 total errors (errmax= 2.5499e-06) d(Node)/d(x6) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z7" ********************************************************* Generating perturbed configuration with delta-z7[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z7) check complete with 0 total errors (errmax= 1.1524e-07) d(Edge)/d(z7) check complete with 0 total errors (errmax= 1.1524e-07) d(Node)/d(z7) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x7" ********************************************************* Generating perturbed configuration with delta-x7[1,1]= 0.00345442 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x7) check complete with 0 total errors (errmax= 7.9104e-16) d(Edge)/d(x7) check complete with 0 total errors (errmax= 8.0652e-16) d(Node)/d(x7) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.237 sec Sensitivity checks complete with 0 total errors (max tess err= 7.1248e-05) with 0 suppressions real 0m1.016s user 0m0.808s sys 0m0.267s ++ set +x -------------------------------------------------------------------------------------------------- ( 244 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYa.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0241e-16) 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 3.8803e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.099 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.842s user 0m0.683s sys 0m0.215s ++ set +x -------------------------------------------------------------------------------------------------- ( 245 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYb.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 4.0241e-16) 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 3.8803e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.127 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.924s user 0m0.788s sys 0m0.192s ++ set +x -------------------------------------------------------------------------------------------------- ( 246 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYc.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.038 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.391s user 0m0.229s sys 0m0.127s ++ set +x -------------------------------------------------------------------------------------------------- ( 247 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYd.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.037 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.378s user 0m0.212s sys 0m0.183s ++ set +x -------------------------------------------------------------------------------------------------- ( 248 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYe.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 2.8674e-17) 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 6.5151e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.5003e-15) d(Edge)/d(y0) check complete with 0 total errors (errmax= 5.4314e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 9.1111e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.104 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5003e-15) with 0 suppressions real 0m0.718s user 0m0.562s sys 0m0.168s ++ set +x -------------------------------------------------------------------------------------------------- ( 249 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYf.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 2.9496e-17) 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 6.4940e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 3.2863e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 3.3430e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.1102e-16) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.099 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.765s user 0m0.599s sys 0m0.203s ++ set +x -------------------------------------------------------------------------------------------------- ( 250 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYg.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.5640e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.8087e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.7352e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.052 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.478s user 0m0.254s sys 0m0.251s ++ set +x -------------------------------------------------------------------------------------------------- ( 251 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYh.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.1869e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(x0) check complete with 0 total errors (errmax= 7.0217e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 7.0217e-17) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(y0) check complete with 0 total errors (errmax= 3.2863e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 3.3430e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(z0) check complete with 0 total errors (errmax= 9.1111e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.026 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.393s user 0m0.167s sys 0m0.169s ++ set +x -------------------------------------------------------------------------------------------------- ( 252 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYi.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 2.8674e-17) 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 6.5151e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 1.5003e-15) d(Edge)/d(y0) check complete with 0 total errors (errmax= 5.4314e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 9.1111e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.122 sec Sensitivity checks complete with 0 total errors (max tess err= 1.5003e-15) with 0 suppressions real 0m0.927s user 0m0.716s sys 0m0.183s ++ set +x -------------------------------------------------------------------------------------------------- ( 253 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYj.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(L) check complete with 0 total errors (errmax= 3.4746e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.4683e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(H) check complete with 0 total errors (errmax= 8.9443e-18) 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(S) check complete with 0 total errors (errmax= 2.4105e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 2.3759e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(T) check complete with 0 total errors (errmax= 2.0981e-17) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.0981e-17) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.088 sec Sensitivity checks complete with 0 total errors (max tess err= 3.4747e-16) with 0 suppressions real 0m0.735s user 0m0.561s sys 0m0.185s ++ set +x -------------------------------------------------------------------------------------------------- ( 254 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYk.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.1466e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(y0) check complete with 0 total errors (errmax= 5.5001e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 5.4314e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.7352e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.032 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.332s user 0m0.204s sys 0m0.147s ++ set +x -------------------------------------------------------------------------------------------------- ( 255 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYl.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(L) check complete with 0 total errors (errmax= 3.9721e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9721e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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 tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(S) check complete with 0 total errors (errmax= 5.6173e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 5.6173e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 d(Face)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Edge)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=9 Computing distances of perturbed points from perturbed configuration for ibody=9 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= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.021 sec Sensitivity checks complete with 0 total errors (max tess err= 5.6174e-16) with 0 suppressions real 0m0.435s user 0m0.192s sys 0m0.153s ++ set +x -------------------------------------------------------------------------------------------------- ( 256 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYm.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 4.1379e-16) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.2503e-16) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 3.9086e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.8613e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(z0) check complete with 0 total errors (errmax= 9.1111e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.159 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m1.050s user 0m0.691s sys 0m0.220s ++ set +x -------------------------------------------------------------------------------------------------- ( 257 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYn.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 3.7966e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.4631e-17) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 3.8252e-16) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.3657e-16) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 3.8254e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 9.9268e-17) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 3.6691e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.0650e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.129 sec Sensitivity checks complete with 0 total errors (max tess err= 3.8255e-16) with 0 suppressions real 0m0.951s user 0m0.745s sys 0m0.244s ++ set +x -------------------------------------------------------------------------------------------------- ( 258 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYo.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 2.2503e-16) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.2503e-16) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 1.8613e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 1.8613e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 8.4067e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.059 sec Sensitivity checks complete with 0 total errors (max tess err= 8.8819e-16) with 0 suppressions real 0m0.448s user 0m0.296s sys 0m0.144s ++ set +x -------------------------------------------------------------------------------------------------- ( 259 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYp.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 3.9721e-16) d(Edge)/d(L) check complete with 0 total errors (errmax= 3.9721e-16) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 2.3657e-16) d(Edge)/d(H) check complete with 0 total errors (errmax= 2.3657e-16) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 5.6173e-16) d(Edge)/d(S) check complete with 0 total errors (errmax= 5.6173e-16) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 2.0650e-16) d(Edge)/d(T) check complete with 0 total errors (errmax= 2.0650e-16) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.031 sec Sensitivity checks complete with 0 total errors (max tess err= 5.6174e-16) with 0 suppressions real 0m0.414s user 0m0.226s sys 0m0.124s ++ set +x -------------------------------------------------------------------------------------------------- ( 260 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYq.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.3390e-16) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(y0) check complete with 0 total errors (errmax= 5.4629e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 5.6760e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.0668e-16) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0307e-16) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.141 sec Sensitivity checks complete with 0 total errors (max tess err= 5.7272e-08) with 0 suppressions real 0m0.843s user 0m0.704s sys 0m0.186s ++ set +x -------------------------------------------------------------------------------------------------- ( 261 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYr.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 d(Face)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 9.4680e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=12 Computing distances of perturbed points from perturbed configuration for ibody=12 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= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.117 sec Sensitivity checks complete with 0 total errors (max tess err= 5.7272e-08) with 0 suppressions real 0m1.031s user 0m0.774s sys 0m0.259s ++ set +x -------------------------------------------------------------------------------------------------- ( 262 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYs.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Node)/d(L) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Node)/d(S) check complete with 0 total errors (errmax= 8.8818e-16) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(D) check complete with 0 total errors (errmax= 5.9344e-17) d(Edge)/d(D) check complete with 0 total errors (errmax= 1.3390e-16) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Edge)/d(x0) check complete with 0 total errors (errmax= 4.4409e-16) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(y0) check complete with 0 total errors (errmax= 5.4629e-16) d(Edge)/d(y0) check complete with 0 total errors (errmax= 5.6760e-16) d(Node)/d(y0) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(z0) check complete with 0 total errors (errmax= 1.0668e-16) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.0307e-16) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.076 sec Sensitivity checks complete with 0 total errors (max tess err= 5.7272e-08) with 0 suppressions real 0m0.684s user 0m0.341s sys 0m0.228s ++ set +x -------------------------------------------------------------------------------------------------- ( 263 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYt.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Edge)/d(L) check complete with 0 total errors (errmax= 5.7272e-08) d(Node)/d(L) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Edge)/d(H) check complete with 0 total errors (errmax= 4.6387e-08) d(Node)/d(H) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Edge)/d(S) check complete with 0 total errors (errmax= 9.6666e-09) d(Node)/d(S) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 d(Face)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Edge)/d(T) check complete with 0 total errors (errmax= 6.7084e-09) d(Node)/d(T) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 9.4680e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=11 Computing distances of perturbed points from perturbed configuration for ibody=11 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= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.046 sec Sensitivity checks complete with 0 total errors (max tess err= 5.7272e-08) with 0 suppressions real 0m0.714s user 0m0.267s sys 0m0.226s ++ set +x -------------------------------------------------------------------------------------------------- ( 264 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYu.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.475 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m1.452s user 0m1.180s sys 0m0.333s ++ set +x -------------------------------------------------------------------------------------------------- ( 265 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYv.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=14 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.521 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m1.584s user 0m1.156s sys 0m0.354s ++ set +x -------------------------------------------------------------------------------------------------- ( 266 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYw.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.277 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m1.072s user 0m0.462s sys 0m0.329s ++ set +x -------------------------------------------------------------------------------------------------- ( 267 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYx.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "L" ********************************************************* Generating perturbed configuration with delta-L[1,1]= 0.00500000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "H" ********************************************************* Generating perturbed configuration with delta-H[1,1]= 0.00300000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "S" ********************************************************* Generating perturbed configuration with delta-S[1,1]= 0.00200000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "T" ********************************************************* Generating perturbed configuration with delta-T[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=13 ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.255 sec Sensitivity checks complete with 0 total errors (max tess err= 2.0000e-20) with 0 suppressions real 0m1.025s user 0m0.441s sys 0m0.281s ++ set +x -------------------------------------------------------------------------------------------------- ( 268 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYy.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 5.7672e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 7.9125e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.000 sec Sensitivity checks complete with 0 total errors (max tess err= 7.9135e-17) with 0 suppressions real 0m0.189s user 0m0.060s sys 0m0.069s ++ set +x -------------------------------------------------------------------------------------------------- ( 269 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designYz.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "D" ********************************************************* Generating perturbed configuration with delta-D[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 5.7672e-17) d(Node)/d(D) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 0.0000e+00) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=3 Computing distances of perturbed points from perturbed configuration 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= 7.9125e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ==> sensCSM completed successfully Total CPU time in ocsmGetTessVel -> 0.000 sec Sensitivity checks complete with 0 total errors (max tess err= 7.9135e-17) with 0 suppressions real 0m0.119s user 0m0.080s sys 0m0.037s ++ set +x -------------------------------------------------------------------------------------------------- ( 270 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ1.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xb" ********************************************************* Generating perturbed configuration with delta-xb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xb) check complete with 0 total errors (errmax= 1.5578e-19) d(Edge)/d(xb) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(xb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yb" ********************************************************* Generating perturbed configuration with delta-yb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(yb) check complete with 0 total errors (errmax= 3.2783e-19) d(Edge)/d(yb) check complete with 0 total errors (errmax= 3.2783e-19) d(Node)/d(yb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zb" ********************************************************* Generating perturbed configuration with delta-zb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.9053e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.6414e-17) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0981e-17) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z0) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 2.8652e-17) 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 tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 2.2046e-17) d(Edge)/d(y1) check complete with 0 total errors (errmax= 2.9674e-17) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 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 tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(r1) check complete with 0 total errors (errmax= 6.0742e-17) d(Edge)/d(r1) check complete with 0 total errors (errmax= 1.1250e-16) d(Node)/d(r1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 5.0656e-17) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 2.3238e-17) d(Edge)/d(y2) check complete with 0 total errors (errmax= 2.9674e-17) d(Node)/d(y2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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 tessellation sensitivity wrt "unused" ********************************************************* Generating perturbed configuration with delta-unused[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.263 sec Sensitivity checks complete with 0 total errors (max tess err= 1.1251e-16) with 0 suppressions real 0m4.710s user 0m3.902s sys 0m0.574s ++ set +x -------------------------------------------------------------------------------------------------- ( 271 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ2.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xb" ********************************************************* Generating perturbed configuration with delta-xb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xb) check complete with 0 total errors (errmax= 5.2603e-17) d(Edge)/d(xb) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(xb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yb" ********************************************************* Generating perturbed configuration with delta-yb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(yb) check complete with 0 total errors (errmax= 3.2783e-19) d(Edge)/d(yb) check complete with 0 total errors (errmax= 3.2783e-19) d(Node)/d(yb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zb" ********************************************************* Generating perturbed configuration with delta-zb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.8440e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.7824e-17) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.0981e-17) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 7.2681e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(z0) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x1) check complete with 0 total errors (errmax= 5.2603e-17) d(Edge)/d(x1) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y1) check complete with 0 total errors (errmax= 2.1084e-17) d(Edge)/d(y1) check complete with 0 total errors (errmax= 2.9674e-17) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z1) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(z1) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(r1) check complete with 0 total errors (errmax= 4.6915e-17) d(Edge)/d(r1) check complete with 0 total errors (errmax= 5.5511e-17) d(Node)/d(r1) check complete with 0 total errors (errmax= 5.5511e-17) ********************************************************* Starting tessellation sensitivity wrt "c1" ********************************************************* Generating perturbed configuration with delta-c1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(c1) check complete with 0 total errors (errmax= 3.8850e-17) d(Edge)/d(c1) check complete with 0 total errors (errmax= 4.1962e-17) d(Node)/d(c1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x2) check complete with 0 total errors (errmax= 5.2527e-17) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y2) check complete with 0 total errors (errmax= 2.3208e-17) 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z2) check complete with 0 total errors (errmax= 8.3925e-17) d(Edge)/d(z2) check complete with 0 total errors (errmax= 8.3925e-17) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(r2) check complete with 0 total errors (errmax= 5.2685e-17) d(Edge)/d(r2) check complete with 0 total errors (errmax= 1.1189e-16) d(Node)/d(r2) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "c2" ********************************************************* Generating perturbed configuration with delta-c2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(c2) check complete with 0 total errors (errmax= 2.2361e-17) d(Edge)/d(c2) check complete with 0 total errors (errmax= 1.3878e-17) d(Node)/d(c2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "unused" ********************************************************* Generating perturbed configuration with delta-unused[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.376 sec Sensitivity checks complete with 0 total errors (max tess err= 1.1190e-16) with 0 suppressions real 0m7.226s user 0m6.478s sys 0m0.752s ++ set +x -------------------------------------------------------------------------------------------------- ( 272 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ3.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xb" ********************************************************* Generating perturbed configuration with delta-xb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xb) check complete with 0 total errors (errmax= 4.4672e-17) d(Edge)/d(xb) check complete with 0 total errors (errmax= 4.9651e-17) d(Node)/d(xb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yb" ********************************************************* Generating perturbed configuration with delta-yb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(yb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(yb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zb" ********************************************************* Generating perturbed configuration with delta-zb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.8261e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.9733e-17) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z0) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(z0) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 3.8306e-17) d(Edge)/d(x1) check complete with 0 total errors (errmax= 4.9651e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 2.4005e-17) 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 tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 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 tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(r1) check complete with 0 total errors (errmax= 5.3817e-17) d(Edge)/d(r1) check complete with 0 total errors (errmax= 5.7444e-17) d(Node)/d(r1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 5.1209e-17) d(Edge)/d(x2) check complete with 0 total errors (errmax= 4.0540e-17) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 2.3186e-17) 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) 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 tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(r2) check complete with 0 total errors (errmax= 5.5446e-17) d(Edge)/d(r2) check complete with 0 total errors (errmax= 4.3148e-17) d(Node)/d(r2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "unused" ********************************************************* Generating perturbed configuration with delta-unused[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.193 sec Sensitivity checks complete with 0 total errors (max tess err= 5.8271e-17) with 0 suppressions real 0m4.320s user 0m3.381s sys 0m0.425s ++ set +x -------------------------------------------------------------------------------------------------- ( 273 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ4.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xb" ********************************************************* Generating perturbed configuration with delta-xb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xb) check complete with 0 total errors (errmax= 2.5963e-11) d(Edge)/d(xb) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(xb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yb" ********************************************************* Generating perturbed configuration with delta-yb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(yb) check complete with 0 total errors (errmax= 5.9603e-10) d(Edge)/d(yb) check complete with 0 total errors (errmax= 3.2783e-19) d(Node)/d(yb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zb" ********************************************************* Generating perturbed configuration with delta-zb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.6153e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 3.0030e-17) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 7.2681e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(z0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x1) check complete with 0 total errors (errmax= 1.1221e-11) d(Edge)/d(x1) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y1) check complete with 0 total errors (errmax= 1.1221e-11) d(Edge)/d(y1) check complete with 0 total errors (errmax= 3.2783e-19) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z1) check complete with 0 total errors (errmax= 8.2413e-17) 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 tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(r1) check complete with 0 total errors (errmax= 1.5323e-07) d(Edge)/d(r1) check complete with 0 total errors (errmax= 4.1368e-07) d(Node)/d(r1) check complete with 0 total errors (errmax= 4.1368e-07) ********************************************************* Starting tessellation sensitivity wrt "c1" ********************************************************* Generating perturbed configuration with delta-c1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(c1) check complete with 0 total errors (errmax= 9.6152e-07) d(Edge)/d(c1) check complete with 0 total errors (errmax= 2.6028e-06) d(Node)/d(c1) check complete with 0 total errors (errmax= 2.6028e-06) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x2) check complete with 0 total errors (errmax= 2.5963e-11) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y2) check complete with 0 total errors (errmax= 5.9603e-10) 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z2) check complete with 0 total errors (errmax= 8.2413e-17) 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 tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(r2) check complete with 0 total errors (errmax= 9.4859e-08) d(Edge)/d(r2) check complete with 0 total errors (errmax= 4.1368e-07) d(Node)/d(r2) check complete with 0 total errors (errmax= 4.1368e-07) ********************************************************* Starting tessellation sensitivity wrt "c2" ********************************************************* Generating perturbed configuration with delta-c2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(c2) check complete with 0 total errors (errmax= 5.9524e-07) d(Edge)/d(c2) check complete with 0 total errors (errmax= 2.6028e-06) d(Node)/d(c2) check complete with 0 total errors (errmax= 2.6028e-06) ********************************************************* Starting tessellation sensitivity wrt "unused" ********************************************************* Generating perturbed configuration with delta-unused[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.331 sec Sensitivity checks complete with 0 total errors (max tess err= 2.6028e-06) with 0 suppressions real 0m9.608s user 0m7.312s sys 0m0.972s ++ set +x -------------------------------------------------------------------------------------------------- ( 274 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ5.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xb" ********************************************************* Generating perturbed configuration with delta-xb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(xb) check complete with 0 total errors (errmax= 1.6586e-08) d(Edge)/d(xb) check complete with 0 total errors (errmax= 4.9651e-17) d(Node)/d(xb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yb" ********************************************************* Generating perturbed configuration with delta-yb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.5143e-08) d(Edge)/d(yb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(yb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zb" ********************************************************* Generating perturbed configuration with delta-zb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.9290e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.7895e-17) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z0) check complete with 0 total errors (errmax= 7.6858e-17) d(Edge)/d(z0) check complete with 0 total errors (errmax= 6.7987e-17) d(Node)/d(z0) check complete with 0 total errors (errmax= 6.1630e-33) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x1) check complete with 0 total errors (errmax= 1.6586e-08) d(Edge)/d(x1) check complete with 0 total errors (errmax= 4.9651e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y1) check complete with 0 total errors (errmax= 1.5143e-08) 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 tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z1) check complete with 0 total errors (errmax= 2.2204e-16) d(Edge)/d(z1) check complete with 0 total errors (errmax= 2.2204e-16) d(Node)/d(z1) check complete with 0 total errors (errmax= 2.2204e-16) ********************************************************* Starting tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(r1) check complete with 0 total errors (errmax= 2.2320e-16) d(Edge)/d(r1) check complete with 0 total errors (errmax= 2.3675e-16) d(Node)/d(r1) check complete with 0 total errors (errmax= 2.4825e-16) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.6586e-08) d(Edge)/d(x2) check complete with 0 total errors (errmax= 4.0540e-17) d(Node)/d(x2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.5143e-08) 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(z2) check complete with 0 total errors (errmax= 8.2260e-17) d(Edge)/d(z2) check complete with 0 total errors (errmax= 8.7771e-17) d(Node)/d(z2) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration for ibody=7 d(Face)/d(r2) check complete with 0 total errors (errmax= 2.2448e-16) d(Edge)/d(r2) check complete with 0 total errors (errmax= 2.3369e-16) d(Node)/d(r2) check complete with 0 total errors (errmax= 2.4825e-16) ********************************************************* Starting tessellation sensitivity wrt "unused" ********************************************************* Generating perturbed configuration with delta-unused[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=7 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.216 sec Sensitivity checks complete with 0 total errors (max tess err= 1.6586e-08) with 0 suppressions real 0m4.308s user 0m3.416s sys 0m0.608s ++ set +x -------------------------------------------------------------------------------------------------- ( 275 / 275 ) ++ /jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64/ESP/LINUX64/bin/sensCSM ../../OpenCSM/trunk/data/basic/designZ6.csm -tess -outLevel 0 --> ocsmCheck() -> status=0 (success) ********************************************************* Starting tessellation sensitivity wrt "xb" ********************************************************* Generating perturbed configuration with delta-xb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(xb) check complete with 0 total errors (errmax= 1.8450e-08) d(Edge)/d(xb) check complete with 0 total errors (errmax= 6.6949e-17) d(Node)/d(xb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "yb" ********************************************************* Generating perturbed configuration with delta-yb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(yb) check complete with 0 total errors (errmax= 1.5143e-08) d(Edge)/d(yb) check complete with 0 total errors (errmax= 5.0077e-19) d(Node)/d(yb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "zb" ********************************************************* Generating perturbed configuration with delta-zb[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Edge)/d(zb) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(zb) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "x0" ********************************************************* Generating perturbed configuration with delta-x0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x0) check complete with 0 total errors (errmax= 5.8642e-17) d(Edge)/d(x0) check complete with 0 total errors (errmax= 1.5578e-19) d(Node)/d(x0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y0" ********************************************************* Generating perturbed configuration with delta-y0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y0) check complete with 0 total errors (errmax= 2.9012e-17) d(Edge)/d(y0) check complete with 0 total errors (errmax= 2.2395e-19) d(Node)/d(y0) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z0" ********************************************************* Generating perturbed configuration with delta-z0[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z0) check complete with 0 total errors (errmax= 7.5447e-08) d(Edge)/d(z0) check complete with 0 total errors (errmax= 1.3262e-05) d(Node)/d(z0) check complete with 0 total errors (errmax= 7.3665e-07) ********************************************************* Starting tessellation sensitivity wrt "x1" ********************************************************* Generating perturbed configuration with delta-x1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x1) check complete with 0 total errors (errmax= 1.8450e-08) d(Edge)/d(x1) check complete with 0 total errors (errmax= 5.9344e-17) d(Node)/d(x1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "y1" ********************************************************* Generating perturbed configuration with delta-y1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y1) check complete with 0 total errors (errmax= 9.5941e-09) d(Edge)/d(y1) check complete with 0 total errors (errmax= 5.0077e-19) d(Node)/d(y1) check complete with 0 total errors (errmax= 0.0000e+00) ********************************************************* Starting tessellation sensitivity wrt "z1" ********************************************************* Generating perturbed configuration with delta-z1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z1) check complete with 0 total errors (errmax= 7.5661e-08) d(Edge)/d(z1) check complete with 0 total errors (errmax= 1.2989e-05) d(Node)/d(z1) check complete with 0 total errors (errmax= 7.4488e-07) ********************************************************* Starting tessellation sensitivity wrt "r1" ********************************************************* Generating perturbed configuration with delta-r1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(r1) check complete with 0 total errors (errmax= 4.0280e-07) d(Edge)/d(r1) check complete with 0 total errors (errmax= 2.2026e-05) d(Node)/d(r1) check complete with 0 total errors (errmax= 2.9305e-06) ********************************************************* Starting tessellation sensitivity wrt "c1" ********************************************************* Generating perturbed configuration with delta-c1[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(c1) check complete with 0 total errors (errmax= 2.8498e-06) d(Edge)/d(c1) check complete with 0 total errors (errmax= 4.5419e-05) d(Node)/d(c1) check complete with 0 total errors (errmax= 1.8856e-05) ********************************************************* Starting tessellation sensitivity wrt "x2" ********************************************************* Generating perturbed configuration with delta-x2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(x2) check complete with 0 total errors (errmax= 1.6586e-08) d(Edge)/d(x2) check complete with 0 total errors (errmax= 1.1102e-16) d(Node)/d(x2) check complete with 0 total errors (errmax= 1.1102e-16) ********************************************************* Starting tessellation sensitivity wrt "y2" ********************************************************* Generating perturbed configuration with delta-y2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(y2) check complete with 0 total errors (errmax= 1.5143e-08) 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 tessellation sensitivity wrt "z2" ********************************************************* Generating perturbed configuration with delta-z2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(z2) check complete with 0 total errors (errmax= 7.5472e-08) d(Edge)/d(z2) check complete with 0 total errors (errmax= 1.2989e-05) d(Node)/d(z2) check complete with 0 total errors (errmax= 7.4488e-07) ********************************************************* Starting tessellation sensitivity wrt "r2" ********************************************************* Generating perturbed configuration with delta-r2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(r2) check complete with 0 total errors (errmax= 3.0372e-07) d(Edge)/d(r2) check complete with 0 total errors (errmax= 2.2026e-05) d(Node)/d(r2) check complete with 0 total errors (errmax= 2.9305e-06) ********************************************************* Starting tessellation sensitivity wrt "c2" ********************************************************* Generating perturbed configuration with delta-c2[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration for ibody=10 d(Face)/d(c2) check complete with 0 total errors (errmax= 2.6074e-06) d(Edge)/d(c2) check complete with 0 total errors (errmax= 4.5419e-05) d(Node)/d(c2) check complete with 0 total errors (errmax= 1.8856e-05) ********************************************************* Starting tessellation sensitivity wrt "unused" ********************************************************* Generating perturbed configuration with delta-unused[1,1]= 0.00100000 Computing analytic sensitivities (if possible) for ibody=10 Computing distances of perturbed points from perturbed configuration 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 ocsmGetTessVel -> 0.384 sec Sensitivity checks complete with 0 total errors (max tess err= 4.5419e-05) with 0 suppressions real 0m9.643s user 0m7.918s sys 0m0.815s ++ set +x [GNU C Compiler (gcc)] Parsing console log (workspace: '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64') [GNU C Compiler (gcc)] Successfully parsed console log [GNU C Compiler (gcc)] -> found 0 issues (skipped 0 duplicates) [GNU C Compiler (gcc)] Skipping post processing [GNU C Compiler (gcc)] No filter has been set, publishing all 0 issues [GNU C Compiler (gcc)] Repository miner is not configured, skipping repository mining [Clang] Parsing console log (workspace: '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64') [Clang] -> found 0 issues (skipped 0 duplicates) [Clang] Parsing console log (workspace: '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64') [Clang] -> found 0 issues (skipped 0 duplicates) [Clang] Successfully parsed console log [Clang] -> found 0 issues (skipped 0 duplicates) [Clang] Parsing console log (workspace: '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64') [Clang] Skipping post processing [Clang] No filter has been set, publishing all 0 issues [Clang] Repository miner is not configured, skipping repository mining [Static Analysis] Successfully parsed console log [Static Analysis] -> found 0 issues (skipped 0 duplicates) [Static Analysis] Parsing console log (workspace: '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64') [Static Analysis] Successfully parsed console log [Static Analysis] -> found 0 issues (skipped 0 duplicates) [Static Analysis] Skipping post processing [Static Analysis] No filter has been set, publishing all 0 issues [Static Analysis] Repository miner is not configured, skipping repository mining [Static Analysis] Successfully parsed console log [Static Analysis] -> found 0 issues (skipped 0 duplicates) [Static Analysis] Successfully parsed console log [Static Analysis] -> found 0 issues (skipped 0 duplicates) [Static Analysis] Successfully parsed console log [Static Analysis] -> found 0 issues (skipped 0 duplicates) [Static Analysis] Parsing console log (workspace: '/jenkins/workspace/ESP_MemcheckOcsm/7.7/sensCSM/tess/LINUX64') [Static Analysis] Skipping post processing [Static Analysis] No filter has been set, publishing all 0 issues [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 0 issues (found 0 new issues, fixed 0 issues) [Static Analysis] Attaching ResultAction with ID 'analysis' to build 'ESP_MemcheckOcsm/CASREV=7.7,ESPTEST=sensCSM/tess,ESP_ARCH=LINUX64,buildnode=reynolds #748'. [Checks API] No suitable checks publisher found. Build step 'Console output (build log) parsing' changed build result to FAILURE [PostBuildScript] - [INFO] Executing post build scripts. [LINUX64] $ /bin/bash -xe /tmp/jenkins1851360559359510502.sh + echo EGADS 2035 OpenCSM 2476 EGADS 2035 OpenCSM 2476 + date Fri Apr 12 12:10:25 AM EDT 2024 [description-setter] Description set: EGADS 2035 OpenCSM 2476 [WS-CLEANUP] Deleting project workspace... [WS-CLEANUP] done Finished: FAILURE