Console Output

Started by upstream project "ESP_RegOcsm" build number 344
originally caused by:
 Started by user jfdannen
Running as jfdannen
[EnvInject] - Loading node environment variables.
Building remotely on windows10x64 in workspace C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019
[WS-CLEANUP] Deleting project workspace...
[WS-CLEANUP] Done
Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS
Updating svn+ssh://acdl.mit.edu/home/svnroot/EGADS at revision '2024-05-07T16:04:58.687 -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 2042

Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP
Updating svn+ssh://acdl.mit.edu/home/svnroot/JenkinsESP at revision '2024-05-07T16:04:58.687 -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 860

Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src
Deleting C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src\epsilonpsi.mod
Deleting C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src\naca456_main.mod
Deleting C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src\naca456udpdata.mod
Deleting C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src\nacaauxilary.mod
Deleting C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src\splineprocedures.mod
Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/src at revision '2024-05-07T16:04:58.687 -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         OpenCSM.c
At revision 2487

Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\data
Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/data at revision '2024-05-07T16:04:58.687 -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         Slugs
A         Slugs\verify_7.8.0
A         Slugs\verify_7.8.0\blend12_1.vfy
A         Slugs\verify_7.8.0\blindeye_1.vfy
A         Slugs\verify_7.8.0\boxBall_1.vfy
A         Slugs\verify_7.8.0\boxHole_1.vfy
A         Slugs\verify_7.8.0\box_1.vfy
A         Slugs\verify_7.8.0\cylinderHole_1.vfy
A         Slugs\verify_7.8.0\cylinder_1.vfy
A         Slugs\verify_7.8.0\damaged_2.vfy
A         Slugs\verify_7.8.0\demo1_1.vfy
A         Slugs\verify_7.8.0\duct_1.vfy
A         Slugs\verify_7.8.0\eyeball_1.vfy
A         Slugs\verify_7.8.0\holes_1.vfy
A         Slugs\verify_7.8.0\pieslice_1.vfy
A         Slugs\verify_7.8.0\sphere_1.vfy
A         Slugs\verify_7.8.0\torus_1.vfy
A         Slugs\verify_7.8.0\tutorial1.vfy
A         Slugs\verify_7.8.0\wing_1.vfy
AU        Slugs\damaged_1.stl
A         Slugs\verify_7.7.0
A         Slugs\verify_7.7.0\blend12_1.vfy
A         Slugs\verify_7.7.0\blindeye_1.vfy
A         Slugs\verify_7.7.0\boxBall_1.vfy
A         Slugs\verify_7.7.0\boxHole_1.vfy
A         Slugs\verify_7.7.0\box_1.vfy
A         Slugs\verify_7.7.0\cylinderHole_1.vfy
A         Slugs\verify_7.7.0\cylinder_1.vfy
A         Slugs\verify_7.7.0\damaged_2.vfy
A         Slugs\verify_7.7.0\demo1_1.vfy
A         Slugs\verify_7.7.0\duct_1.vfy
A         Slugs\verify_7.7.0\eyeball_1.vfy
A         Slugs\verify_7.7.0\holes_1.vfy
A         Slugs\verify_7.7.0\pieslice_1.vfy
A         Slugs\verify_7.7.0\sphere_1.vfy
A         Slugs\verify_7.7.0\torus_1.vfy
A         Slugs\verify_7.7.0\tutorial1.vfy
A         Slugs\verify_7.7.0\wing_1.vfy
A         Slugs\verify_7.6.0
A         Slugs\verify_7.6.0\blend12_1.vfy
A         Slugs\verify_7.6.0\blindeye_1.vfy
A         Slugs\verify_7.6.0\boxBall_1.vfy
A         Slugs\verify_7.6.0\boxHole_1.vfy
A         Slugs\verify_7.6.0\box_1.vfy
A         Slugs\verify_7.6.0\cylinderHole_1.vfy
A         Slugs\verify_7.6.0\cylinder_1.vfy
A         Slugs\verify_7.6.0\damaged_2.vfy
A         Slugs\verify_7.6.0\demo1_1.vfy
A         Slugs\verify_7.6.0\duct_1.vfy
A         Slugs\verify_7.6.0\eyeball_1.vfy
A         Slugs\verify_7.6.0\holes_1.vfy
A         Slugs\verify_7.6.0\pieslice_1.vfy
A         Slugs\verify_7.6.0\sphere_1.vfy
A         Slugs\verify_7.6.0\torus_1.vfy
A         Slugs\verify_7.6.0\tutorial1.vfy
A         Slugs\verify_7.6.0\wing_1.vfy
A         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         Slugs\boxBall_0.jrnl
A         Slugs\boxBall.plot
A         Slugs\boxBall_0.stl
A         Slugs\holes.plot
A         Slugs\holes_0.csm
A         Slugs\holes_0.jrnl
A         Slugs\holes_1.csm
AU        Slugs\tutorial1.stl
A         Slugs\sphere_0.stl
A         Slugs\blend12.plot
A         Slugs\blend12_0.csm
A         Slugs\blend12_0.stl
A         Slugs\blindeye.plot
A         Slugs\blindeye_0.csm
A         Slugs\blindeye_0.jrnl
A         Slugs\blindeye_0.stl
A         Slugs\blindeye_1.csm
A         Slugs\box.plot
A         Slugs\boxBall_0.csm
A         Slugs\boxBall_1.csm
A         Slugs\boxHole.plot
A         Slugs\boxHole_0.csm
A         Slugs\boxHole_0.jrnl
A         Slugs\boxHole_0.stl
A         Slugs\box_0.csm
A         Slugs\box_0.jrnl
A         Slugs\box_0.stl
A         Slugs\cylinder.plot
A         Slugs\cylinderHole.plot
A         Slugs\cylinderHole_0.csm
A         Slugs\cylinderHole_0.jrnl
A         Slugs\cylinderHole_0.stl
A         Slugs\cylinder_0.csm
A         Slugs\cylinder_0.jrnl
A         Slugs\cylinder_0.stl
A         Slugs\damaged.plot
A         Slugs\damaged_0.csm
A         Slugs\damaged_0.stl
A         Slugs\damaged_1.jrnl
A         Slugs\demo1.plot
A         Slugs\demo1_0.csm
A         Slugs\demo1_0.jrnl
A         Slugs\demo1_0.stl
A         Slugs\duct.plot
A         Slugs\duct_0.csm
A         Slugs\duct_0.jrnl
A         Slugs\duct_0.stl
A         Slugs\eyeball.plot
A         Slugs\eyeball_0.csm
A         Slugs\eyeball_0.jrnl
A         Slugs\eyeball_0.stl
A         Slugs\myGlider.plot
A         Slugs\myGlider_0.cpc
A         Slugs\myGlider_0.stl
A         Slugs\pieslice.plot
A         Slugs\pieslice_0.csm
A         Slugs\pieslice_0.jrnl
A         Slugs\pieslice_0.stl
A         Slugs\sphere.plot
A         Slugs\sphere_0.csm
A         Slugs\sphere_0.jrnl
A         Slugs\torus.plot
A         Slugs\torus_0.csm
A         Slugs\torus_0.jrnl
A         Slugs\torus_0.stl
A         Slugs\tutorial1.jrnl
A         Slugs\tutorial1.plot
A         Slugs\tutorial1_setup.csm
A         Slugs\tutorial1_setup.stl
A         Slugs\wing.plot
A         Slugs\wingBody.plot
A         Slugs\wingBody_0.cpc
A         Slugs\wingBody_0.stl
A         Slugs\wing_0.csm
A         Slugs\wing_0.jrnl
A         Slugs\wing_0.stl
A         Slugs\blend12_1.csm
A         Slugs\boxHole_1.csm
A         Slugs\box_1.csm
A         Slugs\cylinderHole_1.csm
A         Slugs\cylinder_1.csm
A         Slugs\damaged_2.csm
A         Slugs\demo1_1.csm
A         Slugs\duct_1.csm
A         Slugs\myGlider_2.csm
A         Slugs\sphere_1.csm
A         Slugs\torus_1.csm
A         Slugs\tutorial1.csm
A         Slugs\wingBody_2.csm
A         Slugs\wing_1.csm
A         Slugs\testfiles
A         Slugs\testfiles\elbow.stl
A         Slugs\testfiles\elbow_NW.csm
A         Slugs\testfiles\elbow_NW.jrnl
A         Slugs\testfiles\elbow_NW.stl
A         Slugs\testfiles\nucleus1.csm
A         Slugs\testfiles\nucleus1.jrnl
A         Slugs\testfiles\nucleus1.stl
A         Slugs\testfiles\nucleus2.stl
A         Slugs\testfiles\nucleus3.stl
AU        Slugs\aneurysm_case1.iges
AU        Slugs\aneurysm_case1_slugs.stl
A         Slugs\eyeball_1.csm
A         Slugs\pieslice_1.csm
A         Slugs\myGlider_0.jrnl
A         Slugs\myGlider_1.jrnl
A         Slugs\damaged_0.jrnl
A         Slugs\wingBody_0.jrnl
A         Slugs\wingBody_1.jrnl
A         Slugs\tutorial1_setup.jrnl
A         Slugs\blend12_0.jrnl
At revision 2487

Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc
Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/udc at revision '2024-05-07T16:04:58.687 -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 2487

Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\Jenkins
Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/Jenkins at revision '2024-05-07T16:04:58.687 -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 2487

Cleaning up C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\pyOCSM
Updating svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/pyOCSM at revision '2024-05-07T16:04:58.687 -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 2487

No changes for svn+ssh://acdl.mit.edu/home/svnroot/EGADS since the previous build
No changes for svn+ssh://acdl.mit.edu/home/svnroot/JenkinsESP since the previous build
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/trunk/data since the previous build
No changes for svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/udc since the previous build
No changes for svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/Jenkins since the previous build
No changes for svn+ssh://acdl.mit.edu/home/svnroot/OpenCSM/trunk/pyOCSM since the previous build
[GitCheckoutListener] SCM 'hudson.scm.SubversionSCM' is not of type GitSCM
Run condition [Execution node ] enabling prebuild for step [Execute shell]
Run condition [Execution node ] enabling prebuild for step [Execute Windows batch command]
[Execution node] check if [windows10x64] is in [[macys, macys_VM, reynolds, viggen]]
Run condition [Execution node ] preventing perform for step [Execute shell]
[Execution node] check if [windows10x64] is in [[windows10x64]]
Run condition [Execution node ] enabling perform for step [Execute Windows batch command]
[WIN64.2019] $ cmd /c call C:\Users\jenkins\AppData\Local\Temp\jenkins14724846739190935386.bat

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set NOCAPS=true 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>rmdir C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\data\Slugs /S /Q 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Run regression tests 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>call C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP\ESP_Regression.bat 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM set PATH=C:\MinGW\msys\1.0\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PATH=C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM echo set WORKSPACE_BASH=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>workspace.bat || exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM sleep 5 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM bash.exe -c "sed -i 's/\\\/\//g' workspace.bat" || exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM sleep 5 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM bash.exe -c "sed -i 's/C:/\/c/g' workspace.bat" || exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM sleep 5 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM bash.exe -c "sed -i 's/D:/\/d/g' workspace.bat" || exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM sleep 5 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM bash.exe -c "sed -i 's/[ \t]*$//'  workspace.bat" || exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM sleep 5 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM call workspace.bat 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Setup the environment 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>call C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP\ESP_Env.bat 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set AFLR_VERSION=11.5.14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set AFLR_ARCH=WIN64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set VSP_VERSION=3.38.0 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHON_VERSION=3.11.9 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHON_MINOR=11 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Indicate that AWAVE should be compiled 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set AWAVE=awavemod.f 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set EMPnumProc=2 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM minimal output from CAPS by default 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set CAPS_OUTLEVEL=0 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM -------------- 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Windows 7 Env 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 (
if WIN64.2019 == WIN64.2010 call "D:\Compilers\Microsoft Visual Studio 10.0\VC\vcvarsall.bat" x64  
 if WIN64.2019 == WIN64.2012 call "D:\Compilers\Microsoft Visual Studio 11.0\VC\vcvarsall.bat" x64  
 if WIN64.2019 == WIN64.2013 call "D:\Compilers\Microsoft Visual Studio 12.0\VC\vcvarsall.bat" x64  
 if WIN64.2019 == WIN64.2015 call "D:\Compilers\Microsoft Visual Studio 14.0\VC\vcvarsall.bat" x64  
 if WIN64.2019 == WIN64.2017 call "D:\Compilers\Microsoft Visual Studio\2017\Community\VC\Auxiliary\Build\vcvarsall.bat" x64  
 echo on  
 set PYTHONINC=D:\Anaconda2\include  
 set PYTHONLIB=D:\Anaconda2\libs\python27.lib  
 set CASROOT=D:\OpenCASCADE-7.8.1  
 set ESP_EXTERN_LIBS=D:\ESP_ExternLibs 
) 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM AFLR 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set AFLR=D:\AFLR\aflr_lib_11.5.14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM astros 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set ASTROS_ROOT=D:\astros 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set PATH=;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM avl 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set PATH=D:\avl;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM delaundo 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set PATH=D:\delaundo;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM IRIT 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set IRIT_LIB=D:\IRIT\irit-win\lib64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set IRIT_INC=D:\IRIT\irit-sm 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set PATH=D:\IRIT\irit-win\ntbin64;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM mystran 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set MYSTRAN_directory=D:\mystran\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set PATH=;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM SU2 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set SU2_RUN=D:\SU2\SU2_Falcon\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set SU2_HOME=D:\SU2\SU2_Falcon 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set PATH=;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set PYTHONPATH=; 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM tetgen 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set TETGEN=D:\tetgen\tetgen1.6.0 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM tsfoil 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows7x64 set PATH=D:\tsfoil;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM xfoil 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows7x64 set PATH=D:\xfoil;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Windows 7 Env END 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM -------------- 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM -------------- 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Windows 10 Env 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 (
if WIN64.2019 == WIN64.2017 call "C:\Program Files (x86)\Microsoft Visual Studio\2017\Community\VC\Auxiliary\Build\vcvarsall.bat" x64  
 if WIN64.2019 == WIN64.2019 call "C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Auxiliary\Build\vcvarsall.bat" x64  
 if WIN64.2019 == WIN64.2022 call "C:\Program Files\Microsoft Visual Studio\2022\Community\VC\Auxiliary\Build\vcvarsall.bat" x64  
 echo on  
 set PYTHONINC=C:\Users\jenkins\ESP_Python-3.11.9\include  
 set PYTHONLIB=C:\Users\jenkins\ESP_Python-3.11.9\libs\python311.lib  
 for / %D in ("C:\Users\jenkins\OpenCASCADE-7.8.*") do (set CASROOT=%D )  
 set ESP_EXTERN_LIBS=C:\Users\jenkins\ESP_ExternLibs 
) 
**********************************************************************
** Visual Studio 2019 Developer Command Prompt v16.11.35
** Copyright (c) 2021 Microsoft Corporation
**********************************************************************
[vcvarsall.bat] Environment initialized for: 'x64'

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>(set CASROOT=C:\Users\jenkins\OpenCASCADE-7.8.0 ) 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM AFLR 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set AFLR=C:\Users\jenkins\AFLR\aflr_lib_11.5.14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM astros 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows10x64 set ASTROS_ROOT=C:\Users\jenkins\astros 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows10x64 set PATH=;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM delaundo 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM IRIT 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set IRIT_LIB=C:\Users\jenkins\IRIT\irit-win\lib64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set IRIT_INC=C:\Users\jenkins\IRIT\irit-sm 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\IRIT\irit-win\ntbin64;C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM OpenVSP 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set VSP3_ROOT=C:\Users\jenkins\OpenVSP\OpenVSP-3.38.0-win64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM tetgen 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set TETGEN=C:\Users\jenkins\tetgen\tetgen1.6.0 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM mystran 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set MYSTRAN_directory=C:\Users\jenkins\mystran\MYSTRAN_13.3A 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\mystran\MYSTRAN_13.3A;C:\Users\jenkins\IRIT\irit-win\ntbin64;C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM SU2 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set SU2_HOME=C:\Users\jenkins\SU2\SU2-v7.1.1 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set SU2_RUN=C:\Users\jenkins\SU2\SU2-v7.1.1\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\SU2\SU2-v7.1.1\bin;C:\Users\jenkins\mystran\MYSTRAN_13.3A;C:\Users\jenkins\IRIT\irit-win\ntbin64;C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PYTHONPATH=;C:\Users\jenkins\SU2\SU2-v7.1.1\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM tsfoil 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if windows10x64 == windows10x64 set PATH=C:\Users\jenkins\tsfoil;C:\Users\jenkins\SU2\SU2-v7.1.1\bin;C:\Users\jenkins\mystran\MYSTRAN_13.3A;C:\Users\jenkins\IRIT\irit-win\ntbin64;C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM xfoil 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM if windows10x64==windows10x64 set PATH=C:\Users\jenkins\xfoil;C:\Users\jenkins\tsfoil;C:\Users\jenkins\SU2\SU2-v7.1.1\bin;C:\Users\jenkins\mystran\MYSTRAN_13.3A;C:\Users\jenkins\IRIT\irit-win\ntbin64;C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Windows 10 Env END 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM -------------- 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM call "C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\em64t\bin\ifortvars.bat" 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>call "C:\Program Files (x86)\Intel\oneAPI\setvars.bat" 
:: initializing oneAPI environment...
   Initializing Visual Studio command-line environment...
   Visual Studio version 16.11.35 environment configured.
   "C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\"
   Visual Studio command-line environment initialized for: 'x64'
:  compiler -- latest
:  debugger -- latest
:  dpl -- latest
:  mpi -- latest
:  tbb -- latest
:: oneAPI environment initialized ::

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Reverse engineer ESP_ARCH and MSVC 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if WIN64.2019 == WIN64.2017 set MSVC=2017 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if WIN64.2019 == WIN64.2019 set MSVC=2019 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if WIN64.2019 == WIN64.2022 set MSVC=2022 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if WIN64.2019 == WIN64.2017 set ESP_ARCH=WIN64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if WIN64.2019 == WIN64.2019 set ESP_ARCH=WIN64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if WIN64 == WIN64.2022 set ESP_ARCH=WIN64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if 7.8 == 7.3 if WIN64 == WIN64 set CASARCH=win64\vc14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if 7.8 == 7.4 if WIN64 == WIN64 set CASARCH=win64\vc14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if 7.8 == 7.6 if WIN64 == WIN64 set CASARCH=win64\vc14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if 7.8 == 7.7 if WIN64 == WIN64 set CASARCH=win64\vc14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if 7.8 == 7.8 if WIN64 == WIN64 set CASARCH=win64\vc14 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set ESP_BLOC=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set ESP_ROOT=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM data for OpenCSM verification 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set CSMDATA=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\data 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PATH=C:\Users\jenkins\OpenCASCADE-7.8.0\win64\vc14\bin;C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin;C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib;C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\env\..\redist\intel64\vc_mt;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\env\..\libfabric\bin\utils;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\env\..\libfabric\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\env\..\bin\release;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\env\..\bin;C:\Program Files (x86)\Intel\oneAPI\debugger\latest\env\\..\gdb\intel64\bin;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\bin;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\lib;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\bin\intel64;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\redist\intel64_win\compiler;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\lib\oclfpga\host\windows64\bin;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\lib\oclfpga\bin;C:\Users\jenkins\tsfoil;C:\Users\jenkins\SU2\SU2-v7.1.1\bin;C:\Users\jenkins\mystran\MYSTRAN_13.3A;C:\Users\jenkins\IRIT\irit-win\ntbin64;C:\Users\jenkins\delaundo;C:\Users\jenkins\ESP_Python-3.11.9\Scripts;C:\Users\jenkins\ESP_Python-3.11.9;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\\Extensions\Microsoft\IntelliCode\CLI;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\VC\Tools\MSVC\14.29.30133\bin\HostX64\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\VC\VCPackages;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TestWindow;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\CommonExtensions\Microsoft\TeamFoundation\Team Explorer;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\MSBuild\Current\bin\Roslyn;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Team Tools\Performance Tools;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\\x64;C:\Program Files (x86)\Microsoft Visual Studio\Shared\Common\VSPerfCollectionTools\vs2019\;C:\Program Files (x86)\Microsoft SDKs\Windows\v10.0A\bin\NETFX 4.8 Tools\x64\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\devinit;C:\Program Files (x86)\Windows Kits\10\bin\10.0.17763.0\x64;C:\Program Files (x86)\Windows Kits\10\bin\x64;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\\MSBuild\Current\Bin;C:\Windows\Microsoft.NET\Framework64\v4.0.30319;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\IDE\;C:\Program Files (x86)\Microsoft Visual Studio\2019\Community\Common7\Tools\;C:\msys64\usr\bin;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\bin\release\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\;C:\Program Files (x86)\Intel\oneAPI\mpi\latest\libfabric\bin\utils\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\intel64\vc_mt\;C:\Program Files (x86)\Intel\oneAPI\tbb\latest\redist\ia32\vc_mt\;C:\Program Files\Common Files\Oracle\Java\javapath;C:\Program Files (x86)\Common Files\Oracle\Java\java8path;C:\Program Files (x86)\Common Files\Oracle\Java\javapath;C:\ProgramData\Oracle\Java\javapath;C:\WINDOWS\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem;C:\WINDOWS\System32\WindowsPowerShell\v1.0\;C:\Program Files\Mosek\8\tools\platform\win64x86\bin;C:\WINDOWS\System32\OpenSSH\;C:\Program Files\TortoiseSVN\bin;C:\Program Files\Mosek\9.1\tools\platform\win64x86\bin;C:\Program Files\Git\cmd;C:\Anaconda2;C:\Anaconda2\Scripts;C:\Anaconda2\Library\bin;C:\Program Files (x86)\Intel\Compiler\Fortran\9.1\EM64T\Bin;C:\Program Files\Git\bin;C:\Users\jenkins\AppData\Local\Microsoft\WindowsApps;C:\Users\jenkins\AppData\Local\Programs\Python\Python38;C:\Users\jenkins\AppData\Local\Programs\Python\Python38\Scripts;%USERPROFILE%\AppData\Local\Microsoft\WindowsApps;C:\Program Files (x86)\Intel\oneAPI\compiler\latest\windows\lib\ocloc 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM set PYTHONPATH=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib;;C:\Users\jenkins\SU2\SU2-v7.1.1\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHONPATH=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\pyEGADS;;C:\Users\jenkins\SU2\SU2-v7.1.1\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHONPATH=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\pyOCSM;C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\pyEGADS;;C:\Users\jenkins\SU2\SU2-v7.1.1\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHONPATH=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\CAPS\pyCAPS;C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\pyOCSM;C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\pyEGADS;;C:\Users\jenkins\SU2\SU2-v7.1.1\bin 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM dissable python stdout buffering 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHONUNBUFFERED=true 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM https://docs.python.org/3/using/cmdline.html#envvar-PYTHONFAULTHANDLER 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set PYTHONFAULTHANDLER=true 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set UDUNITS2_XML_PATH=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\udunits\udunits2.xml 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>exit /b 0 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>if 0 NEQ 0 exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM ESP build from repository 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>call C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP\ESPbfr.bat 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM Untar the build directories 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>"C:\Program Files\7-Zip\7z.exe" e C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP\ESPbfr.tgz   || exit /b 666 

7-Zip [64] 15.14 : Copyright (c) 1999-2015 Igor Pavlov : 2015-12-31

Scanning the drive for archives:
1 file, 42058155 bytes (41 MiB)

Extracting archive: C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP\ESPbfr.tgz
--
Path = C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\JenkinsESP\ESPbfr.tgz
Type = gzip
Headers Size = 10

Everything is Ok

Size:       174295040
Compressed: 42058155

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>"C:\Program Files\7-Zip\7z.exe" x C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESPbfr.tar -x!*\DARWIN64\    || exit /b 666 

7-Zip [64] 15.14 : Copyright (c) 1999-2015 Igor Pavlov : 2015-12-31

Scanning the drive for archives:
1 file, 174295040 bytes (167 MiB)

Extracting archive: C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESPbfr.tar
--
Path = C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESPbfr.tar
Type = tar
Physical Size = 174295040
Headers Size = 129024
Code Page = UTF-8

Everything is Ok

Folders: 40
Files: 144
Size:       150070041
Compressed: 174295040

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM setup python virtualenv 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>virtualenv C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv                    || exit /b 666 
created virtual environment CPython3.11.9.final.0-64 in 4197ms
  creator CPython3Windows(dest=C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\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=C:\Users\jenkins\AppData\Local\pypa\virtualenv)
    added seed packages: pip==24.0, setuptools==69.5.1, wheel==0.43.0
  activators BashActivator,BatchActivator,FishActivator,NushellActivator,PowerShellActivator,PythonActivator

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>call C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\activate.bat     || exit /b 666 

C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>() 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>REM sleep random time so the install from multiple jobs is not simultaneous 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -c "import time; import random; time.sleep(random.randint(1,40))" 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>call :pip_install pip 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>set counter=0 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U pip 
Requirement already satisfied: pip in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (24.0)

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U f90nml 
Collecting f90nml
  Using cached f90nml-1.4.4-py2.py3-none-any.whl.metadata (6.0 kB)
Using cached f90nml-1.4.4-py2.py3-none-any.whl (32 kB)
Installing collected packages: f90nml
Successfully installed f90nml-1.4.4

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U openmdao 
Collecting openmdao
  Using cached openmdao-3.32.0-py3-none-any.whl
Collecting networkx>=2.0 (from openmdao)
  Using cached networkx-3.3-py3-none-any.whl.metadata (5.1 kB)
Collecting numpy<2 (from openmdao)
  Using cached numpy-1.26.4-cp311-cp311-win_amd64.whl.metadata (61 kB)
Collecting packaging (from openmdao)
  Using cached packaging-24.0-py3-none-any.whl.metadata (3.2 kB)
Collecting requests (from openmdao)
  Using cached requests-2.31.0-py3-none-any.whl.metadata (4.6 kB)
Collecting scipy (from openmdao)
  Using cached scipy-1.13.0-cp311-cp311-win_amd64.whl.metadata (60 kB)
Collecting charset-normalizer<4,>=2 (from requests->openmdao)
  Using cached charset_normalizer-3.3.2-cp311-cp311-win_amd64.whl.metadata (34 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 numpy-1.26.4-cp311-cp311-win_amd64.whl (15.8 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 scipy-1.13.0-cp311-cp311-win_amd64.whl (46.2 MB)
Using cached certifi-2024.2.2-py3-none-any.whl (163 kB)
Using cached charset_normalizer-3.3.2-cp311-cp311-win_amd64.whl (99 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, numpy, networkx, idna, charset-normalizer, certifi, scipy, requests, openmdao
Successfully installed certifi-2024.2.2 charset-normalizer-3.3.2 idna-3.7 networkx-3.3 numpy-1.26.4 openmdao-3.32.0 packaging-24.0 requests-2.31.0 scipy-1.13.0 urllib3-2.2.1

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U numpy 
Requirement already satisfied: numpy in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (1.26.4)

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U cvxopt 
Collecting cvxopt
  Using cached cvxopt-1.3.2-cp311-cp311-win_amd64.whl.metadata (1.4 kB)
Using cached cvxopt-1.3.2-cp311-cp311-win_amd64.whl (12.8 MB)
Installing collected packages: cvxopt
Successfully installed cvxopt-1.3.2

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U dill 
Collecting dill
  Using cached dill-0.3.8-py3-none-any.whl.metadata (10 kB)
Using cached dill-0.3.8-py3-none-any.whl (116 kB)
Installing collected packages: dill
Successfully installed dill-0.3.8

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U packaging 
Requirement already satisfied: packaging in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (24.0)

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U matplotlib 
Collecting matplotlib
  Using cached matplotlib-3.8.4-cp311-cp311-win_amd64.whl.metadata (5.9 kB)
Collecting contourpy>=1.0.1 (from matplotlib)
  Using cached contourpy-1.2.1-cp311-cp311-win_amd64.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-win_amd64.whl.metadata (162 kB)
Collecting kiwisolver>=1.3.1 (from matplotlib)
  Using cached kiwisolver-1.4.5-cp311-cp311-win_amd64.whl.metadata (6.5 kB)
Requirement already satisfied: numpy>=1.21 in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (from matplotlib) (1.26.4)
Requirement already satisfied: packaging>=20.0 in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (from matplotlib) (24.0)
Collecting pillow>=8 (from matplotlib)
  Using cached pillow-10.3.0-cp311-cp311-win_amd64.whl.metadata (9.4 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-win_amd64.whl (7.7 MB)
Using cached contourpy-1.2.1-cp311-cp311-win_amd64.whl (188 kB)
Using cached cycler-0.12.1-py3-none-any.whl (8.3 kB)
Using cached fonttools-4.51.0-cp311-cp311-win_amd64.whl (2.2 MB)
Using cached kiwisolver-1.4.5-cp311-cp311-win_amd64.whl (56 kB)
Using cached pillow-10.3.0-cp311-cp311-win_amd64.whl (2.5 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

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019>C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\venv\Scripts\python -m pip install --only-binary all -U scipy 
Requirement already satisfied: scipy in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (1.13.0)
Requirement already satisfied: numpy<2.3,>=1.22.4 in c:\users\jenkins\workspace\esp_regocsm\7.8\senscsm\tess\win64.2019\esp\venv\lib\site-packages (from scipy) (1.26.4)
The system cannot find the path specified.
3 File(s) copied
Compiling EGADS

Microsoft (R) Program Maintenance Utility Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\*.c           /Q /Y
24 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\*.cpp         /Q /Y
9 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\*.h           /Q /Y
7 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\*.rc          /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\*.def         /Q /Y
1 File(s) copied
	mkdir OCC
	cd OCC
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\OCC        /S /Q /Y
14 File(s) copied
	cd ..
	mkdir Surreal
	cd Surreal
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\Surreal    /S /Q /Y
7 File(s) copied
	cd ..
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\emp.c                /Q /Y
1 File(s) copied
	copy  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\evaluate.c evaluate.cpp /Y
        1 file(s) copied.
	copy  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\rational.c rational.cpp /Y
        1 file(s) copied.
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\regQuads.c           /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\regQuads.h           /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\Surreal*_btest.cpp   /Q /Y
4 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util\uvmap\uvmap_struct.h /Q /Y
1 File(s) copied
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\WIN64.2019
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\WIN64.2019
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\WIN64.2019 C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\WIN64.2019
        1 file(s) copied.
	cl /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE SurrealD1_btest.cpp /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealD1.exe
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

SurrealD1_btest.cpp
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealD1.exe 
SurrealD1_btest.obj 
	C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealD1

SurrealD1_test_suite Complete!

	cl /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE SurrealD4_btest.cpp /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealD4.exe
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

SurrealD4_btest.cpp
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealD4.exe 
SurrealD4_btest.obj 
	C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealD4

SurrealD4_test_suite Complete!

	cl /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE SurrealS1_btest.cpp /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealS1.exe
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

SurrealS1_btest.cpp
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealS1.exe 
SurrealS1_btest.obj 
	C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealS1

SurrealS1_test_suite Complete!

	cl /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE SurrealS4_btest.cpp /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealS4.exe
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

SurrealS4_btest.cpp
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealS4.exe 
SurrealS4_btest.obj 
	C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\SurrealS4

SurrealS4_test_suite Complete!

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\util
	nmake -f NMakefile

Microsoft (R) Program Maintenance Utility Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap uvmap\main\uvmap.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\EG_uvmapFindUV.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

EG_uvmapFindUV.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\EG_uvmapGen.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

EG_uvmapGen.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\EG_uvmapStructFree.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

EG_uvmapStructFree.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_chk_edge_ratio.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_chk_edge_ratio.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\EG_uvmap_Read.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

EG_uvmap_Read.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\EG_uvmap_Write.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

EG_uvmap_Write.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\EG_uvmapTest.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

EG_uvmapTest.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_test.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_test.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_add.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_add.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_bnd_adj.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_bnd_adj.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_chk_area_uv.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_chk_area_uv.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_cpu_message.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_cpu_message.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_find_uv.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_find_uv.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_from_egads.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_from_egads.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_gen.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_gen.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_gen_uv.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_gen_uv.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_ibeibe.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_ibeibe.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_ibfibf.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_ibfibf.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_ibfin.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_ibfin.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_iccibe.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_iccibe.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_iccin.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_iccin.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_idibe.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_idibe.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_inibe.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_inibe.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_inl_uv_bnd.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_inl_uv_bnd.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_malloc.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_malloc.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_mben_disc.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_mben_disc.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_message.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_message.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_norm_uv.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_norm_uv.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_read.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_read.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_solve.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_solve.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_struct_tasks.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_struct_tasks.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_to_egads.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_to_egads.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_version.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_version.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ uvmap\uvmap_write.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uvmap_write.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /Iuvmap\. egadsUVmap.c  /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\egadsUVmap.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsUVmap.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\uvmap.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\uvmap.lib
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\uvmap.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\egadsUVmap.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\EG_uvmapFindUV.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\EG_uvmapGen.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\EG_uvmapStructFree.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_chk_edge_ratio.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\EG_uvmap_Read.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\EG_uvmap_Write.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\EG_uvmapTest.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_test.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_add.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_bnd_adj.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_chk_area_uv.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_cpu_message.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_find_uv.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_from_egads.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_gen.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_gen_uv.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_ibeibe.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_ibfibf.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_ibfin.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_iccibe.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_iccin.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_idibe.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_inibe.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_inl_uv_bnd.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_malloc.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_mben_disc.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_message.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_norm_uv.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_read.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_solve.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_struct_tasks.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_to_egads.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_version.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap_write.obj
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\util
	cl /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\uvmap.exe C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap.obj  /link /LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib uvmap.lib
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\uvmap.exe 
/LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib 
uvmap.lib 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\uvmap.obj 
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\umap.exe.manifest  /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\umap.exe;1
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\umap.exe.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\umap.exe;1
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsGeom.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsGeom.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsHLevel.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsHLevel.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsTopo.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTopo.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsCopy.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsCopy.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsIO.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsIO.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsSplineFit.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsSplineFit.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsSpline.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsSpline.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsTessSens.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTessSens.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include egadsSkinning.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsSkinning.cpp
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsBase.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsBase.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsMemory.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsMemory.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsAttrs.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsAttrs.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsTessInp.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTessInp.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsTess.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTess.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsTris.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTris.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsQuads.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsQuads.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsRobust.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsRobust.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsSBO.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsSBO.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsFit.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsFit.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap prmCfit.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

prmCfit.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap prmGrid.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

prmGrid.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap prmUV.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

prmUV.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsExport.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsExport.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsSolids.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsSolids.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I..\util  /I..\util\uvmap egadsEffect.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsEffect.c
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include OCC\BRepLib_FuseEdges.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

BRepLib_FuseEdges.cpp
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include emp.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

emp.c
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IOCC /IC:\Users\jenkins\OpenCASCADE-7.8.0\inc /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I. evaluate.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

evaluate.cpp
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 rational.cpp
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

rational.cpp
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include /I. regQuads.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

regQuads.c
	rc egads
Microsoft (R) Windows (R) Resource Compiler Version 10.0.10011.16384

Copyright (C) Microsoft Corporation.  All rights reserved.


	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll /dll /def:egads.def egadsGeom.obj  egadsHLevel.obj    egadsTopo.obj  egadsCopy.obj  egadsIO.obj    egadsSplineFit.obj egadsSpline.obj egadsTessSens.obj  egadsSkinning.obj egadsBase.obj  egadsMemory.obj egadsAttrs.obj    egadsTessInp.obj  egadsTess.obj  egadsTris.obj   egadsQuads.obj    egadsRobust.obj  egadsSBO.obj   egadsFit.obj    prmCfit.obj  prmGrid.obj    prmUV.obj       egadsExport.obj   egadsSolids.obj  egadsEffect.obj  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\BRepLib_FuseEdges.obj emp.obj evaluate.obj rational.obj regQuads.obj  egads.res C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\uvmap.lib /LIBPATH:C:\Users\jenkins\OpenCASCADE-7.8.0\win64\vc14\lib TKBool.lib TKernel.lib TKFeat.lib TKBO.lib TKGeomAlgo.lib TKMath.lib TKOffset.lib TKPrim.lib TKTopAlgo.lib TKBRep.lib TKG2d.lib TKG3d.lib TKGeomBase.lib TKShHealing.lib TKDESTEP.lib TKDEIGES.lib TKXSBase.lib TKFillet.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll.manifest  /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.dll;2
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadstatic.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadstatic.lib
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadstatic.lib egadsBase.obj  egadsMemory.obj egadsAttrs.obj    egadsTessInp.obj  egadsTess.obj  egadsTris.obj   egadsQuads.obj    egadsRobust.obj  egadsSBO.obj   egadsFit.obj    prmCfit.obj  prmGrid.obj    prmUV.obj       egadsExport.obj   egadsSolids.obj  egadsEffect.obj egadsGeom.obj  egadsHLevel.obj    egadsTopo.obj  egadsCopy.obj  egadsIO.obj    egadsSplineFit.obj egadsSpline.obj egadsTessSens.obj  egadsSkinning.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\BRepLib_FuseEdges.obj emp.obj  evaluate.obj rational.obj regQuads.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\uvmap.lib
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsBase.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsBase.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsMemory.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsMemory.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsAttrs.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsAttrs.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsTess.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsTess.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsGeom.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsGeom.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsHLevel.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsHLevel.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include fgadsTopo.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fgadsTopo.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fgads.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fgads.lib
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fgads.lib fgadsBase.obj  fgadsMemory.obj fgadsAttrs.obj    fgadsTess.obj  fgadsGeom.obj  fgadsHLevel.obj fgadsTopo.obj
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\emp.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\emp.lib
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\emp.lib emp.obj
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\egads.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads_dot.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads_dot.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\egads_dot.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads_dot.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads.inc
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads.inc
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\egads.inc C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egads.inc
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsErrors.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsErrors.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\egadsErrors.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsErrors.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsTypes.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsTypes.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\egadsTypes.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsTypes.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\emp.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\emp.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\emp.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\emp.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\prm.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\prm.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\prm.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\prm.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsserver.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsserver.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\wsserver.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsserver.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsserver.inc
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsserver.inc
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\wsserver.inc C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsserver.inc
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsss.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsss.h
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\wsss.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\wsss.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsTris.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsTris.h
	copy /Y egadsTris.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsTris.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsSplineFit.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsSplineFit.h
	copy /Y egadsSplineFit.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsSplineFit.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsSplineVels.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsSplineVels.h
	copy /Y egadsSplineVels.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsSplineVels.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsf90.inc
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsf90.inc
	copy /Y C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src\..\include\egadsf90.inc C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egadsf90.inc
        1 file(s) copied.
	copy /Y Surreal\SurrealD.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD.h
        1 file(s) copied.
	copy /Y Surreal\SurrealD_Lazy.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD_Lazy.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD_Lazy.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD_Lazy.h
        1 file(s) copied.
	copy /Y Surreal\SurrealD_Trad.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD_Trad.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD_Trad.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealD_Trad.h
        1 file(s) copied.
	copy /Y Surreal\SurrealS.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS.h
        1 file(s) copied.
	copy /Y Surreal\SurrealS_Lazy.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS_Lazy.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS_Lazy.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS_Lazy.h
        1 file(s) copied.
	copy /Y Surreal\SurrealS_Trad.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS_Trad.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS_Trad.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\SurrealS_Trad.h
        1 file(s) copied.
	copy /Y Surreal\always_inline.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\always_inline.h
        1 file(s) copied.
	copy /B C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\always_inline.h+,, C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\Surreal\always_inline.h
        1 file(s) copied.
	del *.cpp *.c *.h *.rc *def *.manifest
	del OCC\* /Q
	rmdir OCC
	del Surreal\* /Q
	rmdir Surreal
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\src
Makefile NMakefile OCC Surreal egads.def egads.rc egadsAttrs.c egadsBase.c egadsClasses.h egadsCopy.cpp egadsEffect.c egadsExport.c egadsFit.c egadsGeom.cpp egadsHLevel.cpp egadsIO.cpp egadsInternals.h egadsMemory.c egadsOCC.h egadsQuads.c egadsRobust.c egadsSBO.c egadsSkinning.cpp egadsSolids.c egadsSpline.cpp egadsSplineFit.cpp egadsSplineFit.h egadsSplineVels.h egadsStack.h egadsTess.c egadsTessInp.c egadsTessSens.cpp egadsTopo.cpp egadsTris.c egadsTris.h elint fgadsAttrs.c fgadsBase.c fgadsGeom.c fgadsHLevel.c fgadsMemory.c fgadsTess.c fgadsTopo.c fgv.c flint make.bat prmCfit.c prmGrid.c prmUV.c EGADS Build Complete! Makefile NMakefile OCC Surreal egads.def egads.rc egadsAttrs.c egadsBase.c egadsClasses.h egadsCopy.cpp egadsEffect.c egadsExport.c egadsFit.c egadsGeom.cpp egadsHLevel.cpp egadsIO.cpp egadsInternals.h egadsMemory.c egadsOCC.h egadsQuads.c egadsRobust.c egadsSBO.c egadsSkinning.cpp egadsSolids.c egadsSpline.cpp egadsSplineFit.cpp egadsSplineFit.h egadsSplineVels.h egadsStack.h egadsTess.c egadsTessInp.c egadsTessSens.cpp egadsTopo.cpp egadsTris.c egadsTris.h elint fgadsAttrs.c fgadsBase.c fgadsGeom.c fgadsHLevel.c fgadsMemory.c fgadsTess.c fgadsTopo.c fgv.c flint make.bat prmCfit.c prmGrid.c prmUV.c
Compiling EGADS wvServer

Microsoft (R) Program Maintenance Utility Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\*.c           /Q /Y
16 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\*.cpp         /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\*.h           /Q /Y
4 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\*.def         /Q /Y
1 File(s) copied
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /DSTANDALONE /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers server.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\servertest.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

server.c
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE map.cpp /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\map.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

map.cpp
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib gettimeofday.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

gettimeofday.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib websock-w32.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

websock-w32.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib base64-decode.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

base64-decode.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib handshake.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

handshake.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib client-handshake.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

client-handshake.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib libwebsockets.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

libwebsockets.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib extension-deflate-stream.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

extension-deflate-stream.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib md5.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

md5.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib extension-x-google-mux.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

extension-x-google-mux.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib parsers.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

parsers.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib extension.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

extension.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib sha-1.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

sha-1.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib browserMessage.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

browserMessage.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib server.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

server.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib wv.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

wv.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /D_UNICODE /DUNICODE /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\win32helpers fwv.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\fwv.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

fwv.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsservers.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsservers.lib
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsservers.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\map.obj gettimeofday.obj websock-w32.obj base64-decode.obj handshake.obj  client-handshake.obj libwebsockets.obj extension-deflate-stream.obj  md5.obj extension-x-google-mux.obj parsers.obj extension.obj sha-1.obj  browserMessage.obj server.obj wv.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\fwv.obj
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib
	nmake -f NMakefile

Microsoft (R) Program Maintenance Utility Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib\*.c           /Q /Y
15 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib\*.h           /Q /Y
11 File(s) copied
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. adler32.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

adler32.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. gzclose.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

gzclose.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. gzwrite.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

gzwrite.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. inftrees.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

inftrees.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. compress.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

compress.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. infback.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

infback.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. trees.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

trees.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. crc32.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

crc32.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. gzlib.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

gzlib.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. inffast.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

inffast.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. uncompr.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

uncompr.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. deflate.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

deflate.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. gzread.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

gzread.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. inflate.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

inflate.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DNDEBUG /DWIN32 /D_CONSOLE /D_UNICODE /DUNICODE /I. zutil.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

zutil.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\z.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\z.lib
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\z.lib adler32.obj gzclose.obj gzwrite.obj inftrees.obj compress.obj  infback.obj trees.obj crc32.obj	gzlib.obj inffast.obj uncompr.obj  deflate.obj gzread.obj inflate.obj zutil.obj
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	del *.c *.h
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer\zlib
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	cl /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\server.exe C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\servertest.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsservers.lib  C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\z.lib ws2_32.lib
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\server.exe 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\servertest.obj 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsservers.lib 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\z.lib 
ws2_32.lib 
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\server.exe.manifest  /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\server.exe;1
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\server.exe.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\test\server.exe;1
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.dll /dll /def:wsserver.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\map.obj  gettimeofday.obj websock-w32.obj base64-decode.obj handshake.obj  client-handshake.obj libwebsockets.obj extension-deflate-stream.obj  md5.obj extension-x-google-mux.obj parsers.obj extension.obj sha-1.obj  browserMessage.obj server.obj wv.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\z.lib ws2_32.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.exp
	del *.c *.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\*.c
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\wvServer
Compiling EGADS lite

Microsoft (R) Program Maintenance Utility Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\*.c                   /Q /Y
23 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\*.h                   /Q /Y
6 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\*.rc                  /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\*.def                 /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\*.h            /Q /Y
7 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\egadsTess.c    /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\egadsTris.c    /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\egadsQuads.c   /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\egadsTessInp.c /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\egadsRobust.c  /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src\egadsEffect.c  /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\emp.c                 /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\evaluate.c            /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\rational.c            /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\regQuads.c            /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\regQuads.h            /Q /Y
1 File(s) copied
	xcopy C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\uvmap\uvmap_struct.h  /Q /Y
1 File(s) copied
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteBase.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteBase.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteMemory.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteMemory.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteGeom.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteGeom.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteTopo.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteTopo.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteAttrs.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteAttrs.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteImport.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteImport.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /I..\util\uvmap liteString.c
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteString.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /DLITE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  egadsTess.c /FoliteTess.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTess.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /DLITE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  egadsTris.c /FoliteTris.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTris.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src egadsQuads.c  /FoliteQuads.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsQuads.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /DLITE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  egadsTessInp.c /FoliteTessInp.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsTessInp.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /DLITE /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include evaluate.c /FoevaLite.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

evaluate.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /DLITE rational.c /ForatLite.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

rational.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /DLITE /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /I. regQuads.c  /FoliteRegQuads.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

regQuads.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /DLITE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  egadsEffect.c /FoliteEffect.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

egadsEffect.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64  /DLITE /I. /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\src  /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite\..\util\uvmap liteUVmap.c /FoliteUVmap.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

liteUVmap.c
	rc egadslite
Microsoft (R) Windows (R) Resource Compiler Version 10.0.10011.16384

Copyright (C) Microsoft Corporation.  All rights reserved.


	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll /dll /def:egadslite.def liteBase.obj liteMemory.obj liteGeom.obj liteTopo.obj liteAttrs.obj  liteImport.obj liteString.obj  liteTess.obj liteTris.obj liteQuads.obj liteTessInp.obj  emp.obj evaLite.obj ratLite.obj egadsRobust.obj  liteRegQuads.obj liteEffect.obj liteUVmap.obj egadslite.res
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll.manifest  /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslite.dll;2
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslitestatic.lib
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslitestatic.lib
	lib /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egadslitestatic.lib liteBase.obj liteMemory.obj liteGeom.obj liteTopo.obj liteAttrs.obj  liteImport.obj liteString.obj liteTess.obj liteTris.obj  liteQuads.obj liteTessInp.obj egadsRobust.obj emp.obj  evaLite.obj ratLite.obj liteRegQuads.obj liteEffect.obj  liteUVmap.obj
Microsoft (R) Library Manager Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	del *.c *.h *.rc *.def *.manifest
	cd C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\EGADS\trunk\lite
Compiling OpenCSM

Microsoft (R) Program Maintenance Utility Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers serveCSM.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\serveCSM.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

serveCSM.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include OpenCSM.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\OpenCSM.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

OpenCSM.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udp.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udp.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udp.c
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers tim.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\tim.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

tim.c
	rc ocsm
Microsoft (R) Windows (R) Resource Compiler Version 10.0.10011.16384

Copyright (C) Microsoft Corporation.  All rights reserved.


	copy ocsm.res C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ocsm.res
        1 file(s) copied.
	del ocsm.res
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll /dll /def:ocsm.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\OpenCSM.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udp.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\tim.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\ocsm.res /LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib wsserver.lib egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.dll;2
	cl /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveCSM.exe C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\serveCSM.obj /link /LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib ocsm.lib wsserver.lib egads.lib
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveCSM.exe 
/LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib 
ocsm.lib 
wsserver.lib 
egads.lib 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\serveCSM.obj 
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveCSM.exe.manifest               /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveCSM.exe;1
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveCSM.exe.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveCSM.exe;1
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\winhelpers serveESP.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\serveESP.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

serveESP.c
	cl /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveESP.exe C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\serveESP.obj /link /LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib ocsm.lib wsserver.lib egads.lib
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveESP.exe 
/LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib 
ocsm.lib 
wsserver.lib 
egads.lib 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\serveESP.obj 
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveESP.exe.manifest               /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveESP.exe;1
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveESP.exe.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\serveESP.exe;1
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include sensCSM.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\sensCSM.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

sensCSM.c
	cl /FeC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\sensCSM.exe C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\sensCSM.obj /link /LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib ocsm.lib egads.lib
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

/out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\sensCSM.exe 
/LIBPATH:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib 
ocsm.lib 
egads.lib 
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\sensCSM.obj 
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\sensCSM.exe.manifest               /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\sensCSM.exe;1
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\sensCSM.exe.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\bin\sensCSM.exe;1
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpBezier.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBezier.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpBezier.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBezier.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bezier.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpBiconvex.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBiconvex.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpBiconvex.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBiconvex.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\biconvex.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpBox.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBox.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpBox.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBox.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\box.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpBspline.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBspline.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpBspline.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpBspline.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\bspline.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfCatmull.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCatmull.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfCatmull.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCatmull.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\catmull.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfCompare.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCompare.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfCompare.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCompare.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\compare.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfCreateBEM.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCreateBEM.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfCreateBEM.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCreateBEM.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createBEM.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfCreatePoly.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCreatePoly.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfCreatePoly.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfCreatePoly.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\createPoly.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpCsm.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpCsm.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpCsm.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpCsm.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\csm.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfDeform.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfDeform.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfDeform.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfDeform.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\deform.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfDroop.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfDroop.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfDroop.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfDroop.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\droop.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfDumpPmtrs.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfDumpPmtrs.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfDumpPmtrs.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfDumpPmtrs.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\dumpPmtrs.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfEditAttr.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfEditAttr.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfEditAttr.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfEditAttr.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\editAttr.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpEllipse.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpEllipse.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpEllipse.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpEllipse.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ellipse.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpEqn2body.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpEqn2body.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpEqn2body.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpEqn2body.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\eqn2body.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpFitcurve.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpFitcurve.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpFitcurve.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpFitcurve.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\fitcurve.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfFlend.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfFlend.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfFlend.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfFlend.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\flend.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpFreeform.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpFreeform.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpFreeform.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpFreeform.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\freeform.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfGanged.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfGanged.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfGanged.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfGanged.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ganged.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfGuide.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfGuide.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfGuide.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfGuide.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\guide.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpHex.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpHex.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpHex.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpHex.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\hex.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpImport.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpImport.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpImport.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpImport.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\import.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpKulfan.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpKulfan.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpKulfan.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpKulfan.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\kulfan.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfLinalg.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfLinalg.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfLinalg.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfLinalg.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\linalg.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfMatchBodys.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfMatchBodys.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfMatchBodys.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfMatchBodys.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\matchBodys.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfMechanism.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfMechanism.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfMechanism.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfMechanism.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mechanism.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpNaca.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpNaca.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpNaca.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpNaca.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfNaca6mc.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfNaca6mc.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfNaca6mc.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfNaca6mc.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca6mc.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfNacelle.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfNacelle.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfNacelle.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfNacelle.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nacelle.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpNurbbody.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpNurbbody.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpNurbbody.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpNurbbody.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nurbbody.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfNuscale.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfNuscale.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfNuscale.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfNuscale.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\nuscale.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfOffset.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfOffset.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfOffset.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfOffset.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\offset.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpParabaloid.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpParabaloid.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpParabaloid.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpParabaloid.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parabaloid.dll;2
	cl /c /Ob2 /Oi /Ot /Oy /MD /EHsc /GR /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpParsec.cpp /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpParsec.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpParsec.cpp
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpParsec.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\parsec.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpPod.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpPod.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpPod.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpPod.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\pod.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpPoly.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpPoly.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpPoly.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpPoly.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\poly.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfPrintBbox.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfPrintBbox.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfPrintBbox.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfPrintBbox.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBbox.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfPrintBrep.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfPrintBrep.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfPrintBrep.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfPrintBrep.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printBrep.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfPrintEgo.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfPrintEgo.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfPrintEgo.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfPrintEgo.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\printEgo.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpProp.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpProp.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpProp.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpProp.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\prop.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpRadwaf.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpRadwaf.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpRadwaf.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpRadwaf.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\radwaf.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpSample.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpSample.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpSample.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpSample.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sample.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpSew.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpSew.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpSew.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpSew.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\sew.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfShadow.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfShadow.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfShadow.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfShadow.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\shadow.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfSlices.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfSlices.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfSlices.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfSlices.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slices.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpStag.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpStag.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpStag.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpStag.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stag.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfStiffener.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfStiffener.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfStiffener.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfStiffener.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\stiffener.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpSupell.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpSupell.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpSupell.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpSupell.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\supell.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udfTester1.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfTester1.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udfTester1.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udfTester1.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester1.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpTester2.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpTester2.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpTester2.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpTester2.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\tester2.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpVsp3.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpVsp3.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpVsp3.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpVsp3.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vsp3.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpWaffle.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpWaffle.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpWaffle.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpWaffle.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\waffle.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpWarp.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpWarp.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpWarp.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpWarp.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\warp.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include eggPDT2.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\eggPDT2.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

eggPDT2.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll /dll /def:egg.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\eggPDT2.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\PDT2.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include udpNaca456.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpNaca456.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

udpNaca456.c
	ifort /c /Ox /threads /recursive /libs:dll naca456.f90 /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\naca456.obj
Intel(R) Fortran Intel(R) 64 Compiler Classic for applications running on Intel(R) 64, Version 2021.10.0 Build 20230609_000000
Copyright (C) 1985-2023 Intel Corporation.  All rights reserved.

	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll /dll /def:udp.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\udpNaca456.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\naca456.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\naca456.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include timEreped.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timEreped.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

timEreped.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll /dll /def:tim.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timEreped.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ereped.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include timMitten.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timMitten.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

timMitten.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll /dll /def:tim.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timMitten.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\mitten.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include timPlotter.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timPlotter.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

timPlotter.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll /dll /def:tim.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timPlotter.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plotter.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include timPlugs.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timPlugs.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

timPlugs.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll /dll /def:tim.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timPlugs.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\plugs.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include timSlugs.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timSlugs.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

timSlugs.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll /dll /def:tim.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timSlugs.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\slugs.dll;2
	cl /c /Ox /MD /D_CRT_SECURE_NO_DEPRECATE /DWNT /DNDEBUG /D_CONSOLE /DWIN32 /DREVISION=7.8 /D_OCC64 /IC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include timVspSetup.c /FoC:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timVspSetup.obj
Microsoft (R) C/C++ Optimizing Compiler Version 19.29.30154 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

timVspSetup.c
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.exp
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll
	link /out:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll /dll /def:tim.def C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\obj\timVspSetup.obj C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\ocsm.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\wsserver.lib C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\egads.lib
Microsoft (R) Incremental Linker Version 14.29.30154.0
Copyright (C) Microsoft Corporation.  All rights reserved.

   Creating library C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.lib and object C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.exp
	echo /manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll;2
/manifest C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll.manifest /outputresource:C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\lib\vspSetup.dll;2
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\OpenCSM.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\OpenCSM.h
	copy OpenCSM.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\OpenCSM.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\common.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\common.h
	copy common.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\common.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udp.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udp.h
	copy udp.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udp.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\esp.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\esp.h
	copy esp.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\esp.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\tim.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\tim.h
	copy tim.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\tim.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egg.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egg.h
	copy egg.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\egg.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udpUtilities.h
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udpUtilities.h
	copy udpUtilities.h C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udpUtilities.h
        1 file(s) copied.
	del C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udpUtilities.c
Could Not Find C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udpUtilities.c
	copy udpUtilities.c C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64\include\udpUtilities.c
        1 file(s) copied.
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\applyTparams.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\biconvex.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\boxudc.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\capsHeader.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\capsViews.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\combine.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\contains.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\diamond.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\duct.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\expressions.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\flapz.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\fuselage.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\gen_rot.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\glovesFuse.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\glovesVtail.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\glovesWing.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\overlaps.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\popupz.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\replicate.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\splitEdges.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\spoilerz.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\strut.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\swap.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewAstros.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewAvl.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewConcept.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewMasstran.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewSansLIP.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewSkinStructure.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewSu2Inviscid.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\viewSu2Viscous.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\wake.udc
C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\udc\wing.udc
33 File(s) copied
Build training sessions
Add training sessions to PATH
1 File(s) copied
total 45M
-rw-r--r-- 1 jenkins None  27M Nov 13  2018 ASTRO.D01
-rw-r--r-- 1 jenkins None 381K Nov 13  2018 ASTRO.IDX
-rwxr-xr-x 1 jenkins None 1.6M Apr 16  2022 avl.exe
-rwxr-xr-x 1 jenkins None  12M Nov 13  2018 mastros.exe
-rwxr-xr-x 1 jenkins None 1.3M May  3  2022 mses.exe
-rwxr-xr-x 1 jenkins None 1.2M May  3  2022 mset.exe
-rwxr-xr-x 1 jenkins None  52K May  7 16:55 sensCSM.exe
-rwxr-xr-x 1 jenkins None 224K May  7 16:55 serveCSM.exe
-rwxr-xr-x 1 jenkins None 187K May  7 16:55 serveESP.exe
-rwxr-xr-x 1 jenkins None 1.7M Jul 13  2023 xfoil.exe
Testing CSM files:
..\..\OpenCSM\trunk\data\basic\design0.csm
..\..\OpenCSM\trunk\data\basic\design0a.csm
..\..\OpenCSM\trunk\data\basic\design0b.csm
..\..\OpenCSM\trunk\data\basic\design0c.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\design8.csm
..\..\OpenCSM\trunk\data\basic\design8a.csm
..\..\OpenCSM\trunk\data\basic\design8b.csm
..\..\OpenCSM\trunk\data\basic\design8c.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
..\..\OpenCSM\trunk\data\basic\designZ7.csm
..\..\OpenCSM\trunk\data\basic\designZ8.csm
..\..\OpenCSM\trunk\data\basic\designZ9a.csm
..\..\OpenCSM\trunk\data\basic\designZ9b.csm
(   1 / 279 )
data\basic\design0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0.csm' -outLevel 0 -tess
--> 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

real	0m1.197s
user	0m0.000s
sys	0m0.031s
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 ->      0.004 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.8187e-06) with 0 suppressions
+ set +x
data\basic\design0 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(   2 / 279 )
data\basic\design0a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0a.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m1.007s
user	0m0.016s
sys	0m0.015s
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 ->      0.080 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5607e-16) with 0 suppressions
+ set +x
data\basic\design0a -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   3 / 279 )
data\basic\design0b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0b.csm' -outLevel 0 -tess
--> 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

real	0m0.352s
user	0m0.000s
sys	0m0.031s
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 ->      0.036 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5776e-16) with 0 suppressions
+ set +x
data\basic\design0b -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   4 / 279 )
data\basic\design0c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0c.csm' -outLevel 0 -tess
--> 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=  0.0000e+00)
    d(Edge)/d(xbeg1) check complete with        0 total errors (errmax=  3.4608e-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=  8.3817e-09)
    d(Edge)/d(ybeg1) check complete with        0 total errors (errmax=  2.3986e-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=  3.4504e-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=  3.2148e-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=  6.3678e-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=  4.1239e-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=  3.0659e-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=  7.3484e-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

real	0m0.957s
user	0m0.000s
sys	0m0.031s
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=  2.0792e-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 ->      0.043 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3002e-06) with 0 suppressions
+ set +x
data\basic\design0c -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   5 / 279 )
data\basic\design0d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0d.csm' -outLevel 0 -tess
--> 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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.1408e-16) with 0 suppressions

real	0m0.198s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\design0d -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   6 / 279 )
data\basic\design0e.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0e.csm' -outLevel 0 -tess
--> 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=  1.3694e-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=  1.3718e-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=  1.8797e-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=  2.2836e-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=  1.3239e-16)
    d(Edge)/d(chord) check complete with        0 total errors (errmax=  2.0816e-16)
    d(Node)/d(chord) check complete with        0 total errors (errmax=  4.4604e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "alpha"
*********************************************************


real	0m0.320s
user	0m0.000s
sys	0m0.062s
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 ->      0.002 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.7990e-07) with 0 suppressions
+ set +x
data\basic\design0e -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   7 / 279 )
data\basic\design0f.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0f.csm' -outLevel 0 -tess
--> 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

real	0m0.338s
user	0m0.000s
sys	0m0.046s
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 ->      0.025 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4991e-07) with 0 suppressions
+ set +x
data\basic\design0f -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   8 / 279 )
data\basic\design0g.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0g.csm' -outLevel 0 -tess
--> 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=  2.7570e-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=  2.4491e-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=  2.8890e-16)
    d(Edge)/d(xle) check complete with        0 total errors (errmax=  3.9433e-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=  2.6340e-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=  3.1655e-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=  8.7091e-17)
    d(Edge)/d(yle) check complete with        0 total errors (errmax=  1.0750e-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=  1.8387e-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=  3.0048e-17)
    d(Edge)/d(zle) check complete with        0 total errors (errmax=  3.6425e-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=  3.2095e-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=  4.2164e-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=  5.5511e-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=  1.7076e-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=  6.6613e-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=  2.4019e-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=  4.4409e-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=22
Computing distances of perturbed points from perturbed configuration for ibody=22
    d(Face)/d(thick) check complete with        0 total errors (errmax=  2.4605e-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 ->     46.887 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.4605e-06) with 0 suppressions

real	0m56.064s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\design0g -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(   9 / 279 )
data\basic\design0h.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0h.csm' -outLevel 0 -tess
--> 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=  5.0358e-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=  1.5156e-20)
    d(Edge)/d(rx) check complete with        0 total errors (errmax=  1.1393e-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=  1.9688e-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=  3.0431e-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 ->      0.001 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.0432e-16) with 0 suppressions

real	0m0.531s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\design0h -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  10 / 279 )
data\basic\design0i.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0i.csm' -outLevel 0 -tess
--> 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=  1.1027e-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=  1.9897e-16)
    d(Edge)/d(ry) check complete with        0 total errors (errmax=  1.9485e-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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9898e-16) with 0 suppressions

real	0m0.296s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\design0i -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  11 / 279 )
data\basic\design0j.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0j.csm' -outLevel 0 -tess
--> 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=  1.5984e-16)
    d(Edge)/d(xle) check complete with        0 total errors (errmax=  1.3670e-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=  3.1512e-17)
    d(Edge)/d(zle) check complete with        0 total errors (errmax=  4.1168e-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=  2.9405e-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=  1.1102e-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=  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=  1.2413e-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=  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 ->      8.121 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3415e-07) with 0 suppressions

real	0m10.020s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\design0j -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  12 / 279 )
data\basic\design0k.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0k.csm' -outLevel 0 -tess
--> 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=  6.4702e-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=  8.8849e-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=  5.1404e-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

real	0m13.709s
user	0m0.015s
sys	0m0.000s
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 ->      9.014 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1288e-07) with 0 suppressions
+ set +x
data\basic\design0k -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  13 / 279 )
data\basic\design0m.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0m.csm' -outLevel 0 -tess
--> 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 ->      0.008 sec

Sensitivity checks complete with        1 total errors (max tess err=  1.0635e-04) with 0 suppressions

real	0m0.309s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\design0m -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  14 / 279 )
data\basic\design0n1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0n1.csm' -outLevel 0 -tess
--> 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 ->      0.033 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6780e-07) with 0 suppressions

real	0m0.417s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\design0n1 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  15 / 279 )
data\basic\design0n2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0n2.csm' -outLevel 0 -tess
--> 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

real	0m1.012s
user	0m0.031s
sys	0m0.015s
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=  2.4896e-16)
    d(Node)/d(span) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.327 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.4897e-16) with 0 suppressions
+ set +x
data\basic\design0n2 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  16 / 279 )
data\basic\design0o1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0o1.csm' -outLevel 0 -tess
--> 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

real	0m2.527s
user	0m0.015s
sys	0m0.000s
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=  1.9621e-16)
    d(Edge)/d(span) check complete with        0 total errors (errmax=  3.3198e-16)
    d(Node)/d(span) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      1.732 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6620e-07) with 0 suppressions
+ set +x
data\basic\design0o1 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  17 / 279 )
data\basic\design0o2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0o2.csm' -outLevel 0 -tess
--> 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=  1.9580e-16)
    d(Edge)/d(span) check complete with        0 total errors (errmax=  3.3198e-16)
    d(Node)/d(span) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      3.042 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.3199e-16) with 0 suppressions

real	0m5.459s
user	0m0.000s
sys	0m0.030s
+ set +x
data\basic\design0o2 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  18 / 279 )
data\basic\design0o3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0o3.csm' -outLevel 0 -tess
--> 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=  1.9621e-16)
    d(Edge)/d(span) check complete with        0 total errors (errmax=  3.3198e-16)
    d(Node)/d(span) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      1.882 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6620e-07) with 0 suppressions

real	0m2.784s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\design0o3 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  19 / 279 )
data\basic\design0o4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0o4.csm' -outLevel 0 -tess
--> 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

real	0m5.740s
user	0m0.015s
sys	0m0.015s
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=  1.9580e-16)
    d(Edge)/d(span) check complete with        0 total errors (errmax=  3.3198e-16)
    d(Node)/d(span) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      3.026 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.3199e-16) with 0 suppressions
+ set +x
data\basic\design0o4 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  20 / 279 )
data\basic\design0p.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0p.csm' -outLevel 0 -tess
--> 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

real	0m0.273s
user	0m0.000s
sys	0m0.031s
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 ->      0.007 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.7737e-08) with 0 suppressions
+ set +x
data\basic\design0p -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  21 / 279 )
data\basic\design0q.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0q.csm' -outLevel 0 -tess
--> 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 ->      0.713 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.8077e-09) with 0 suppressions

real	0m1.123s
user	0m0.000s
sys	0m0.016s
+ set +x
data\basic\design0q -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  22 / 279 )
data\basic\design0r.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0r.csm' -outLevel 0 -tess
--> 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=  1.2812e-16)
    d(Edge)/d(xbeg) check complete with        0 total errors (errmax=  3.0260e-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=  4.2507e-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=  1.1102e-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=  3.6142e-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=  1.6259e-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=  5.0353e-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

real	0m2.040s
user	0m0.000s
sys	0m0.015s
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=  2.4825e-16)
    d(Node)/d(sfac) check complete with        0 total errors (errmax=  2.5438e-16)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.096 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.9242e-07) with 0 suppressions
+ set +x
data\basic\design0r -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  23 / 279 )
data\basic\design0s.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0s.csm' -outLevel 0 -tess
--> 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

real	0m0.210s
user	0m0.000s
sys	0m0.061s
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 ->      0.002 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\design0s -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  24 / 279 )
data\basic\design0t1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0t1.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.239s
user	0m0.015s
sys	0m0.000s
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 ->      0.005 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.6285e-16) with 0 suppressions
+ set +x
data\basic\design0t1 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  25 / 279 )
data\basic\design0t2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0t2.csm' -outLevel 0 -tess
--> 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 ->      0.353 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.7230e-16) with 0 suppressions

real	0m0.721s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\design0t2 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  26 / 279 )
data\basic\design0t3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0t3.csm' -outLevel 0 -tess
--> 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 ->      0.356 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.7230e-16) with 0 suppressions

real	0m0.701s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\design0t3 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  27 / 279 )
data\basic\design0u.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0u.csm' -outLevel 0 -tess
--> 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=  2.4630e-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=  2.3697e-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 ->      0.001 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.8764e-07) with 0 suppressions

real	0m0.236s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\design0u -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  28 / 279 )
data\basic\design0v.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0v.csm' -outLevel 0 -tess
--> 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=  3.1904e-16)
    d(Node)/d(span) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.018 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.8764e-07) with 0 suppressions

real	0m0.273s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\design0v -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  29 / 279 )
data\basic\design0w.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design0w.csm' -outLevel 0 -tess
--> 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=  3.4750e-16)
    d(Edge)/d(xle) check complete with        0 total errors (errmax=  3.1646e-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=  3.0607e-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=  7.8758e-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=  5.5511e-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=  2.7557e-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=  8.4065e-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=  1.5701e-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=  1.9098e-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=  4.9439e-17)
    d(Edge)/d(zle) check complete with        0 total errors (errmax=  7.3742e-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=  4.1968e-17)
    d(Edge)/d(zle) check complete with        0 total errors (errmax=  4.2093e-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=  5.2173e-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=  4.7208e-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=  4.0777e-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=  1.1189e-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

real	0m20.413s
user	0m0.015s
sys	0m0.015s
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 ->     16.451 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.8348e-06) with 0 suppressions
+ set +x
data\basic\design0w -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  30 / 279 )
data\basic\design1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design1a.csm' -outLevel 0 -tess
--> 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 ->      0.051 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.2561e-15) with 0 suppressions

real	0m0.743s
user	0m0.000s
sys	0m0.047s
+ set +x
data\basic\design1a -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  31 / 279 )
data\basic\design1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design1b.csm' -outLevel 0 -tess
--> 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=  5.7751e-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=  5.1398e-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

real	0m2.023s
user	0m0.015s
sys	0m0.000s
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 ->      0.095 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.4778e-07) with 0 suppressions
+ set +x
data\basic\design1b -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  32 / 279 )
data\basic\design2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design2.csm' -outLevel 0 -tess
--> 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

real	0m23.883s
user	0m0.000s
sys	0m0.015s
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->     12.465 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\design2 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  33 / 279 )
data\basic\design3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design3.csm' -outLevel 0 -tess
--> 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

real	0m4.092s
user	0m0.000s
sys	0m0.047s
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      2.317 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\design3 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  34 / 279 )
data\basic\design4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design4.csm' -outLevel 0 -tess
--> 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=  9.0984e-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=  5.1343e-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

real	0m2.094s
user	0m0.031s
sys	0m0.000s
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 ->      0.085 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.4778e-07) with 0 suppressions
+ set +x
data\basic\design4 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  35 / 279 )
data\basic\design5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design5.csm' -outLevel 0 -tess
--> 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 ->     36.229 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	1m14.040s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\design5 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  36 / 279 )
data\basic\design6.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design6.csm' -outLevel 0 -tess
--> 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

real	0m9.140s
user	0m0.000s
sys	0m0.031s
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      5.051 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\design6 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  37 / 279 )
data\basic\design7.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design7.csm' -outLevel 0 -tess
--> 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 ->     14.776 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m27.616s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\design7 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  38 / 279 )
data\basic\design8.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design8.csm' -outLevel 0 -tess
--> 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 ->      0.003 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.2793e-17) with 0 suppressions

real	0m0.236s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\design8 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  39 / 279 )
data\basic\design8a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design8a.csm' -outLevel 0 -tess
--> 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

real	0m0.420s
user	0m0.015s
sys	0m0.015s
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 ->      0.032 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.7308e-08) with 0 suppressions
+ set +x
data\basic\design8a -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  40 / 279 )
data\basic\design8b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design8b.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.347s
user	0m0.000s
sys	0m0.015s
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 ->      0.035 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.8556e-07) with 0 suppressions
+ set +x
data\basic\design8b -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  41 / 279 )
data\basic\design8c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design8c.csm' -outLevel 0 -tess
--> 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=  3.5383e-10)
    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=  1.5813e-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=  2.1109e-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=  1.5413e-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 ->      0.088 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.0563e-07) with 0 suppressions

real	0m0.730s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\design8c -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  42 / 279 )
data\basic\design8d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design8d.csm' -outLevel 0 -tess
--> 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=  6.1351e-17)
    d(Edge)/d(xbeg1) check complete with        0 total errors (errmax=  1.9658e-13)
    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=  1.9998e-13)
    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=  1.6455e-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=  1.1008e-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=  2.2756e-08)
    d(Edge)/d(x2) check complete with        0 total errors (errmax=  5.1729e-13)
    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=  1.8909e-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

real	0m3.020s
user	0m0.000s
sys	0m0.046s
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=  4.1217e-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 ->      0.023 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0789e-06) with 0 suppressions
+ set +x
data\basic\design8d -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  43 / 279 )
data\basic\design9.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\design9.csm' -outLevel 0 -tess
--> 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=  1.5796e-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=  1.3481e-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=  1.4500e-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=  2.1813e-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=  1.4922e-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=  3.0021e-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

real	4m36.703s
user	0m0.031s
sys	0m0.000s
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 ->     75.696 sec

Sensitivity checks complete with       59 total errors (max tess err=  7.1433e-02) with 0 suppressions
+ set +x
data\basic\design9 -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  44 / 279 )
data\basic\designA.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designA.csm' -outLevel 0 -tess
--> 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]"
*********************************************************


real	0m1.351s
user	0m0.000s
sys	0m0.030s
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 ->      0.002 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designA -tess            passed (as expected)
--------------------------------------------------------------------------------------------------
(  45 / 279 )
data\basic\designB1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designB1.csm' -outLevel 0 -tess
--> 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

real	0m1.759s
user	0m0.031s
sys	0m0.015s
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 ->      0.069 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9394e-06) with 0 suppressions
+ set +x
data\basic\designB1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  46 / 279 )
data\basic\designB2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designB2.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m1.530s
user	0m0.015s
sys	0m0.000s
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 ->      0.085 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9394e-06) with 0 suppressions
+ set +x
data\basic\designB2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  47 / 279 )
data\basic\designB3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designB3.csm' -outLevel 0 -tess
--> 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

real	0m1.578s
user	0m0.000s
sys	0m0.030s
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 ->      0.087 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9394e-06) with 0 suppressions
+ set +x
data\basic\designB3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  48 / 279 )
data\basic\designB4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designB4.csm' -outLevel 0 -tess
--> 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

real	0m3.506s
user	0m0.000s
sys	0m0.031s
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 ->      0.869 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9394e-06) with 0 suppressions
+ set +x
data\basic\designB4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  49 / 279 )
data\basic\designB5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designB5.csm' -outLevel 0 -tess
--> 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

real	0m6.588s
user	0m0.000s
sys	0m0.015s
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 ->      1.899 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9394e-06) with 0 suppressions
+ set +x
data\basic\designB5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  50 / 279 )
data\basic\designC0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC0.csm' -outLevel 0 -tess
--> 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

real	0m0.177s
user	0m0.015s
sys	0m0.000s
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 ->      0.004 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.4410e-16) with 0 suppressions
+ set +x
data\basic\designC0 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  51 / 279 )
data\basic\designC1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC1a.csm' -outLevel 0 -tess
--> 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=  1.5896e-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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions

real	0m0.342s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designC1a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  52 / 279 )
data\basic\designC1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC1b.csm' -outLevel 0 -tess
--> 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=  6.4074e-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"
*********************************************************


real	0m0.249s
user	0m0.015s
sys	0m0.000s
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=  1.5896e-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 ->      0.007 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions
+ set +x
data\basic\designC1b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  53 / 279 )
data\basic\designC2a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC2a.csm' -outLevel 0 -tess
--> 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=  1.5835e-16)
    d(Edge)/d(rad) check complete with        0 total errors (errmax=  1.7501e-16)
    d(Node)/d(rad) 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=  3.1250e-08) with 0 suppressions

real	0m0.279s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designC2a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  54 / 279 )
data\basic\designC2b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC2b.csm' -outLevel 0 -tess
--> 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=  1.0519e-19)
    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

real	0m0.261s
user	0m0.000s
sys	0m0.015s
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=  1.5835e-16)
    d(Edge)/d(rad) check complete with        0 total errors (errmax=  1.7501e-16)
    d(Node)/d(rad) 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=  3.1250e-08) with 0 suppressions
+ set +x
data\basic\designC2b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  55 / 279 )
data\basic\designC3a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC3a.csm' -outLevel 0 -tess
--> 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

real	0m0.307s
user	0m0.000s
sys	0m0.046s
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=  1.5835e-16)
    d(Edge)/d(rad) check complete with        0 total errors (errmax=  1.7501e-16)
    d(Node)/d(rad) 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=  3.1250e-08) with 0 suppressions
+ set +x
data\basic\designC3a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  56 / 279 )
data\basic\designC3b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC3b.csm' -outLevel 0 -tess
--> 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=  1.0519e-19)
    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=  1.5835e-16)
    d(Edge)/d(rad) check complete with        0 total errors (errmax=  1.7501e-16)
    d(Node)/d(rad) 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=  3.1250e-08) with 0 suppressions

real	0m0.253s
user	0m0.000s
sys	0m0.016s
+ set +x
data\basic\designC3b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  57 / 279 )
data\basic\designC4a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC4a.csm' -outLevel 0 -tess
--> 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=  3.7594e-16)
    d(Edge)/d(xvrtx) check complete with        0 total errors (errmax=  3.5392e-16)
    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]=   0.00100000
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=  3.7304e-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=  8.9036e-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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions

real	0m0.640s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designC4a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  58 / 279 )
data\basic\designC4b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC4b.csm' -outLevel 0 -tess
--> 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=  2.7190e-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=  4.4817e-16)
    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=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

real	0m0.333s
user	0m0.000s
sys	0m0.015s
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=  8.9009e-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 ->      0.007 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions
+ set +x
data\basic\designC4b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  59 / 279 )
data\basic\designC5a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC5a.csm' -outLevel 0 -tess
--> 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=  3.7632e-16)
    d(Edge)/d(yvrtx) check complete with        0 total errors (errmax=  3.4749e-16)
    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]=   0.00100000
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=  3.7610e-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"
*********************************************************


real	0m0.308s
user	0m0.015s
sys	0m0.000s
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=  8.9028e-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 ->      0.007 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions
+ set +x
data\basic\designC5a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  60 / 279 )
data\basic\designC5b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC5b.csm' -outLevel 0 -tess
--> 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=  2.7290e-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=  4.4869e-16)
    d(Edge)/d(ybase) check complete with        0 total errors (errmax=  4.4409e-16)
    d(Node)/d(ybase) check complete with        0 total errors (errmax=  4.4409e-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=  8.9028e-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 ->      0.008 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions

real	0m0.606s
user	0m0.000s
sys	0m0.046s
+ set +x
data\basic\designC5b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  61 / 279 )
data\basic\designC6a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC6a.csm' -outLevel 0 -tess
--> 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=  3.7624e-16)
    d(Edge)/d(zvrtx) check complete with        0 total errors (errmax=  3.4749e-16)
    d(Node)/d(zvrtx) check complete with        0 total errors (errmax=  1.1102e-16)
 

*********************************************************
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=  3.7610e-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=  8.9028e-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 ->      0.008 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions

real	0m0.352s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designC6a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  62 / 279 )
data\basic\designC6b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designC6b.csm' -outLevel 0 -tess
--> 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=  2.7302e-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=  4.4869e-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=  4.4409e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "rad"
*********************************************************

Generating perturbed configuration with delta-rad[1,1]=   0.00100000

real	0m0.354s
user	0m0.031s
sys	0m0.015s
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=  8.9028e-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 ->      0.007 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.1250e-08) with 0 suppressions
+ set +x
data\basic\designC6b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  63 / 279 )
data\basic\designD0a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD0a.csm' -outLevel 0 -tess
--> 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

real	0m0.171s
user	0m0.000s
sys	0m0.015s
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 ->      0.003 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.3201e-17) with 0 suppressions
+ set +x
data\basic\designD0a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  64 / 279 )
data\basic\designD0b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD0b.csm' -outLevel 0 -tess
--> 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 ->      0.003 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3509e-08) with 0 suppressions

real	0m1.087s
user	0m0.000s
sys	0m0.030s
+ set +x
data\basic\designD0b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  65 / 279 )
data\basic\designD0c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD0c.csm' -outLevel 0 -tess
--> 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=  2.6456e-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=  1.4748e-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=  6.6844e-17)
    d(Edge)/d(croot) check complete with        0 total errors (errmax=  4.1509e-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=  4.0752e-16)
    d(Node)/d(aspect) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.023 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4748e-07) with 0 suppressions

real	0m0.646s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designD0c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  66 / 279 )
data\basic\designD1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD1a.csm' -outLevel 0 -tess
--> 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

real	0m1.367s
user	0m0.000s
sys	0m0.031s
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 ->      0.663 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5258e-10) with 0 suppressions
+ set +x
data\basic\designD1a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  67 / 279 )
data\basic\designD1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD1b.csm' -outLevel 0 -tess
--> 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 ->      1.168 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4445e-07) with 0 suppressions

real	0m1.753s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designD1b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  68 / 279 )
data\basic\designD1c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD1c.csm' -outLevel 0 -tess
--> 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=  2.4239e-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=  1.4701e-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=  2.2379e-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=  4.6361e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  7.3467e-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=  1.3946e-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=  7.0938e-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

real	0m6.658s
user	0m0.000s
sys	0m0.047s
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=  7.0887e-15)
    d(Edge)/d(dihedral) check complete with        0 total errors (errmax=  7.0941e-15)
    d(Node)/d(dihedral) check complete with        0 total errors (errmax=  7.0888e-15)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      5.074 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4701e-07) with 0 suppressions
+ set +x
data\basic\designD1c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  69 / 279 )
data\basic\designD2a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD2a.csm' -outLevel 0 -tess
--> 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 ->      0.909 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5258e-10) with 0 suppressions

real	0m1.764s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designD2a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  70 / 279 )
data\basic\designD2b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD2b.csm' -outLevel 0 -tess
--> 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 ->      0.955 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4445e-07) with 0 suppressions

real	0m1.407s
user	0m0.000s
sys	0m0.046s
+ set +x
data\basic\designD2b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  71 / 279 )
data\basic\designD2c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD2c.csm' -outLevel 0 -tess
--> 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=  2.3341e-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=  1.4668e-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=  2.1909e-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=  4.6602e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  7.3467e-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=  1.3302e-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=  7.0938e-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=  7.0887e-15)
    d(Edge)/d(dihedral) check complete with        0 total errors (errmax=  7.0941e-15)
    d(Node)/d(dihedral) check complete with        0 total errors (errmax=  7.0888e-15)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      4.660 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4668e-07) with 0 suppressions

real	0m6.578s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designD2c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  72 / 279 )
data\basic\designD3a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD3a.csm' -outLevel 0 -tess
--> 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

real	0m1.379s
user	0m0.000s
sys	0m0.000s
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 ->      0.709 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5258e-10) with 0 suppressions
+ set +x
data\basic\designD3a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  73 / 279 )
data\basic\designD3b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD3b.csm' -outLevel 0 -tess
--> 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

real	0m2.155s
user	0m0.000s
sys	0m0.000s
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 ->      1.464 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.0180e-08) with 0 suppressions
+ set +x
data\basic\designD3b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  74 / 279 )
data\basic\designD3c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD3c.csm' -outLevel 0 -tess
--> 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=  5.8819e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  7.2519e-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=  1.5037e-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=  1.0216e-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=  5.2241e-15)
    d(Edge)/d(lesweep) check complete with        0 total errors (errmax=  7.0902e-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=  5.2190e-15)
    d(Edge)/d(dihedral) check complete with        0 total errors (errmax=  7.0926e-15)
    d(Node)/d(dihedral) check complete with        0 total errors (errmax=  7.0888e-15)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      7.855 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5721e-07) with 0 suppressions

real	0m10.436s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designD3c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  75 / 279 )
data\basic\designD4a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD4a.csm' -outLevel 0 -tess
--> 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 ->      1.047 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5258e-10) with 0 suppressions

real	0m1.867s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designD4a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  76 / 279 )
data\basic\designD4b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD4b.csm' -outLevel 0 -tess
--> 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 ->      2.468 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.0180e-08) with 0 suppressions

real	0m3.275s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designD4b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  77 / 279 )
data\basic\designD4c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD4c.csm' -outLevel 0 -tess
--> 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=  2.5283e-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=  1.5820e-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=  2.3473e-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=  6.2149e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  7.6919e-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=  6.2087e-15)
    d(Edge)/d(lesweep) check complete with        0 total errors (errmax=  7.0631e-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=  6.2101e-15)
    d(Edge)/d(dihedral) check complete with        0 total errors (errmax=  7.0933e-15)
    d(Node)/d(dihedral) check complete with        0 total errors (errmax=  7.0888e-15)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->     13.980 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5820e-07) with 0 suppressions

real	0m17.587s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designD4c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  78 / 279 )
data\basic\designD5a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD5a.csm' -outLevel 0 -tess
--> 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

real	0m1.493s
user	0m0.000s
sys	0m0.046s
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 ->      0.807 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5258e-10) with 0 suppressions
+ set +x
data\basic\designD5a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  79 / 279 )
data\basic\designD5b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD5b.csm' -outLevel 0 -tess
--> 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 ->      1.497 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.0180e-08) with 0 suppressions

real	0m2.326s
user	0m0.015s
sys	0m0.047s
+ set +x
data\basic\designD5b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  80 / 279 )
data\basic\designD5c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD5c.csm' -outLevel 0 -tess
--> 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=  5.8819e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  7.2519e-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=  1.5037e-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=  1.0216e-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=  5.2241e-15)
    d(Edge)/d(lesweep) check complete with        0 total errors (errmax=  7.0902e-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=  5.2190e-15)
    d(Edge)/d(dihedral) check complete with        0 total errors (errmax=  7.0926e-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=  4.3289e-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 ->      8.090 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5721e-07) with 0 suppressions

real	0m11.079s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designD5c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
(  81 / 279 )
data\basic\designD6a0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6a0.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m1.907s
user	0m0.031s
sys	0m0.046s
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 ->      0.752 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9945e-08) with 0 suppressions
+ set +x
data\basic\designD6a0 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  82 / 279 )
data\basic\designD6a1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6a1.csm' -outLevel 0 -tess
--> 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

real	0m1.931s
user	0m0.015s
sys	0m0.015s
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 ->      1.057 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9945e-08) with 0 suppressions
+ set +x
data\basic\designD6a1 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  83 / 279 )
data\basic\designD6a2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6a2.csm' -outLevel 0 -tess
--> 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

real	0m1.554s
user	0m0.000s
sys	0m0.046s
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 ->      0.742 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9945e-08) with 0 suppressions
+ set +x
data\basic\designD6a2 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  84 / 279 )
data\basic\designD6b0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6b0.csm' -outLevel 0 -tess
--> 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 ->      1.287 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.0180e-08) with 0 suppressions

real	0m2.323s
user	0m0.000s
sys	0m0.030s
+ set +x
data\basic\designD6b0 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  85 / 279 )
data\basic\designD6b1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6b1.csm' -outLevel 0 -tess
--> 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 ->      1.997 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.4705e-08) with 0 suppressions

real	0m2.873s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designD6b1 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  86 / 279 )
data\basic\designD6b2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6b2.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m2.075s
user	0m0.000s
sys	0m0.031s
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 ->      1.231 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.1311e-08) with 0 suppressions
+ set +x
data\basic\designD6b2 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  87 / 279 )
data\basic\designD6c0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6c0.csm' -outLevel 0 -tess
--> 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=  4.8321e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  8.8586e-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=  8.6429e-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=  3.8605e-17)
    d(Edge)/d(ybase) check complete with        0 total errors (errmax=  3.5832e-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=  3.0985e-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 ->      6.391 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5710e-07) with 0 suppressions

real	0m10.266s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designD6c0 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  88 / 279 )
data\basic\designD6c1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6c1.csm' -outLevel 0 -tess
--> 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=  5.4386e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  8.1914e-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=  9.2975e-17)
    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=  4.2948e-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=20
Computing distances of perturbed points from perturbed configuration for ibody=20
    d(Face)/d(zbase) check complete with        0 total errors (errmax=  3.8355e-16)
    d(Edge)/d(zbase) check complete with        0 total errors (errmax=  4.6222e-16)
    d(Node)/d(zbase) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->     10.478 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4492e-07) with 0 suppressions

real	0m15.556s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designD6c1 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  89 / 279 )
data\basic\designD6c2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designD6c2.csm' -outLevel 0 -tess
--> 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=  5.2961e-16)
    d(Edge)/d(aspect) check complete with        0 total errors (errmax=  7.8406e-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=  1.4756e-16)
    d(Edge)/d(xbase) check complete with        0 total errors (errmax=  1.3121e-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=  8.6469e-17)
    d(Edge)/d(ybase) check complete with        0 total errors (errmax=  3.5832e-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

real	0m8.926s
user	0m0.000s
sys	0m0.015s
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=  3.7479e-16)
    d(Edge)/d(zbase) check complete with        0 total errors (errmax=  5.4390e-16)
    d(Node)/d(zbase) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      4.973 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4553e-07) with 0 suppressions
+ set +x
data\basic\designD6c2 -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
(  90 / 279 )
data\basic\designE1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE1.csm' -outLevel 0 -tess
--> 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

real	0m0.748s
user	0m0.015s
sys	0m0.078s
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 ->      0.030 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designE1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  91 / 279 )
data\basic\designE2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE2.csm' -outLevel 0 -tess
--> 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

real	0m1.595s
user	0m0.000s
sys	0m0.031s
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 ->      0.056 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3241e-14) with 0 suppressions
+ set +x
data\basic\designE2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  92 / 279 )
data\basic\designE3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE3.csm' -outLevel 0 -tess
--> 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	0m4.470s
user	0m0.000s
sys	0m0.016s
+ set +x
data\basic\designE3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  93 / 279 )
data\basic\designE4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE4.csm' -outLevel 0 -tess
--> 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 ->      0.319 sec

Sensitivity checks complete with        8 total errors (max tess err=  3.5794e-04) with 0 suppressions

real	0m5.458s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designE4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  94 / 279 )
data\basic\designE5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE5.csm' -outLevel 0 -tess
--> 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=  1.2204e-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

real	0m1.087s
user	0m0.000s
sys	0m0.015s
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 ->      0.155 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9394e-06) with 0 suppressions
+ set +x
data\basic\designE5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  95 / 279 )
data\basic\designE6.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE6.csm' -outLevel 0 -tess
--> 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

real	0m0.276s
user	0m0.000s
sys	0m0.031s
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 ->      0.012 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.9595e-17) with 0 suppressions
+ set +x
data\basic\designE6 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  96 / 279 )
data\basic\designE7.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE7.csm' -outLevel 0 -tess
--> 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 ->      0.032 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.8131e-16) with 0 suppressions

real	0m0.504s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designE7 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  97 / 279 )
data\basic\designE8.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE8.csm' -outLevel 0 -tess
--> 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=  8.2642e-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=  2.5153e-17)
 

*********************************************************
Starting tessellation sensitivity wrt "size"
*********************************************************

Generating perturbed configuration with delta-size[1,1]=   0.00100000

real	0m0.384s
user	0m0.015s
sys	0m0.000s
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=  9.1627e-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-16)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.021 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.8131e-16) with 0 suppressions
+ set +x
data\basic\designE8 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  98 / 279 )
data\basic\designE9.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designE9.csm' -outLevel 0 -tess
--> 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 ->      0.024 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.1509e-17) with 0 suppressions

real	0m0.509s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designE9 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
(  99 / 279 )
data\basic\designEa.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designEa.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.436s
user	0m0.000s
sys	0m0.015s
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 ->      0.016 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.8767e-16) with 0 suppressions
+ set +x
data\basic\designEa -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 100 / 279 )
data\basic\designEb.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designEb.csm' -outLevel 0 -tess
--> 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

real	0m0.439s
user	0m0.015s
sys	0m0.031s
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 ->      0.033 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.3891e-17) with 0 suppressions
+ set +x
data\basic\designEb -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 101 / 279 )
data\basic\designF0bb.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF0bb.csm' -outLevel 0 -tess
--> 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=  3.2856e-16)
    d(Edge)/d(xloc) check complete with        0 total errors (errmax=  4.9750e-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=  2.4214e-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=  9.6608e-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=  8.1467e-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 ->      1.588 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.4769e-07) with 0 suppressions

real	0m3.011s
user	0m0.015s
sys	0m0.030s
+ set +x
data\basic\designF0bb -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 102 / 279 )
data\basic\designF1bb.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF1bb.csm' -outLevel 0 -tess
--> 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=  9.1839e-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

real	0m4.759s
user	0m0.000s
sys	0m0.015s
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=  8.9605e-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 ->      2.370 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.4769e-07) with 0 suppressions
+ set +x
data\basic\designF1bb -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 103 / 279 )
data\basic\designF1rr.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF1rr.csm' -outLevel 0 -tess
--> 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=  6.3410e-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=  1.4272e-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=  1.2912e-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=  9.5460e-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=  8.1344e-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=  5.9801e-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=  2.7415e-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=  5.8276e-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=  1.0048e-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

real	0m4.981s
user	0m0.000s
sys	0m0.031s
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=  8.8985e-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 ->      3.532 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.3410e-07) with 0 suppressions
+ set +x
data\basic\designF1rr -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 104 / 279 )
data\basic\designF1rs.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF1rs.csm' -outLevel 0 -tess
--> 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=  5.4293e-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=  1.2040e-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=  1.4188e-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=  1.2398e-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=  4.4140e-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=  1.5382e-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=  8.6741e-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=  4.3283e-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=  3.9440e-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=  1.5382e-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=  1.5382e-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=  6.7985e-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=  7.2911e-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=  5.8184e-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=  1.5382e-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=  2.3787e-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=  1.5382e-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=  6.0707e-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=  1.6917e-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=  1.6533e-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 ->      3.673 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.0335e-07) with 0 suppressions

real	0m5.225s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designF1rs -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 105 / 279 )
data\basic\designF1sr.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF1sr.csm' -outLevel 0 -tess
--> 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=  6.8791e-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=  1.5573e-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

real	0m5.257s
user	0m0.000s
sys	0m0.030s
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=  1.4788e-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 ->      3.557 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.6400e-07) with 0 suppressions
+ set +x
data\basic\designF1sr -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 106 / 279 )
data\basic\designF1ss.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF1ss.csm' -outLevel 0 -tess
--> 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=  5.1751e-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=  1.4612e-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=  1.1062e-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=  1.0326e-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=  3.6916e-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=  1.4997e-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=  9.0765e-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=  4.3958e-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=  4.0390e-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=  1.4997e-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=  1.4997e-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=  5.0896e-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=  6.5119e-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=  4.6165e-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=  1.4997e-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=  1.4997e-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=  1.4997e-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=  6.8181e-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=  1.6268e-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=  1.5844e-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 ->      3.311 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.8710e-07) with 0 suppressions

real	0m5.039s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designF1ss -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 107 / 279 )
data\basic\designF2bb.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF2bb.csm' -outLevel 0 -tess
--> 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=  8.6064e-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 ->      1.536 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.4769e-07) with 0 suppressions

real	0m2.488s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designF2bb -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 108 / 279 )
data\basic\designF2rr.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF2rr.csm' -outLevel 0 -tess
--> 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=  6.0242e-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=  1.5543e-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=  1.2793e-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=  5.5908e-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=  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=  3.9202e-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=  5.5908e-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=  5.5908e-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=  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=  7.2145e-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=  5.5908e-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=  2.6718e-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=  7.8147e-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=  5.5515e-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=  1.0709e-16)
    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

real	0m3.879s
user	0m0.000s
sys	0m0.031s
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=  9.2040e-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 ->      2.550 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.8534e-07) with 0 suppressions
+ set +x
data\basic\designF2rr -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 109 / 279 )
data\basic\designF2rs.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF2rs.csm' -outLevel 0 -tess
--> 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=  5.0999e-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=  1.2991e-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=  1.1048e-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=  1.3184e-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=  4.7495e-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=  1.3756e-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=  8.8339e-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=  3.6413e-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=  3.9298e-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=  1.3756e-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=  1.3756e-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=  7.1847e-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=  6.4388e-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=  5.8290e-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=  1.3756e-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=  2.4150e-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=  1.3756e-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=  6.1755e-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=  1.5554e-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=  1.5537e-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 ->      2.468 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.5388e-07) with 0 suppressions

real	0m3.745s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designF2rs -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 110 / 279 )
data\basic\designF2sr.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF2sr.csm' -outLevel 0 -tess
--> 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=  5.3654e-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=  1.5695e-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=  1.0546e-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=  8.6285e-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=  4.1133e-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=  8.2632e-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=  8.8735e-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=  4.0478e-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=  3.3473e-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=  8.2632e-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=  8.2632e-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=  5.6965e-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=  5.8988e-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=  4.3903e-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=  8.2632e-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=  8.2632e-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=  6.5949e-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=  6.8333e-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=  1.1785e-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

real	0m4.236s
user	0m0.000s
sys	0m0.015s
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=  1.0394e-16)
    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 ->      2.655 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.5045e-07) with 0 suppressions
+ set +x
data\basic\designF2sr -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 111 / 279 )
data\basic\designF2ss.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designF2ss.csm' -outLevel 0 -tess
--> 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=  4.7087e-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=  1.3835e-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=  1.0256e-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=  1.1141e-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=  4.0399e-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=  1.4945e-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=  8.2145e-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=  3.8626e-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=  3.9729e-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=  1.4945e-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=  1.4945e-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=  5.8421e-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=  5.6395e-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=  4.5070e-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=  1.4945e-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=  1.4945e-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=  1.4945e-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=  7.0098e-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=  1.6268e-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

real	0m3.906s
user	0m0.000s
sys	0m0.000s
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=  1.6064e-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 ->      2.332 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.2595e-07) with 0 suppressions
+ set +x
data\basic\designF2ss -tess         passed (as expected)
--------------------------------------------------------------------------------------------------
( 112 / 279 )
data\basic\designG0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG0.csm' -outLevel 0 -tess
--> 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 ->      0.043 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6755e-06) with 0 suppressions

real	0m1.560s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designG0 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 113 / 279 )
data\basic\designG1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG1.csm' -outLevel 0 -tess
--> 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

real	0m9.722s
user	0m0.031s
sys	0m0.000s
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 ->      5.420 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.6611e-05) with 0 suppressions
+ set +x
data\basic\designG1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 114 / 279 )
data\basic\designG2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG2.csm' -outLevel 0 -tess
--> 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 ->     11.062 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.6642e-05) with 0 suppressions

real	0m17.294s
user	0m0.046s
sys	0m0.000s
+ set +x
data\basic\designG2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 115 / 279 )
data\basic\designG3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG3.csm' -outLevel 0 -tess
--> 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 ->      5.982 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.6611e-05) with 0 suppressions

real	0m10.212s
user	0m0.000s
sys	0m0.047s
+ set +x
data\basic\designG3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 116 / 279 )
data\basic\designG4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG4.csm' -outLevel 0 -tess
--> 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

real	0m19.751s
user	0m0.000s
sys	0m0.000s
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 ->     11.911 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.6642e-05) with 0 suppressions
+ set +x
data\basic\designG4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 117 / 279 )
data\basic\designG5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG5.csm' -outLevel 0 -tess
--> 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 ->     12.806 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6755e-06) with 28 suppressions

real	0m19.492s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designG5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 118 / 279 )
data\basic\designG6.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG6.csm' -outLevel 0 -tess
--> 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

real	0m38.508s
user	0m0.015s
sys	0m0.015s
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 ->     27.422 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6755e-06) with 64 suppressions
+ set +x
data\basic\designG6 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 119 / 279 )
data\basic\designG7.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG7.csm' -outLevel 0 -tess
--> 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

real	0m17.517s
user	0m0.000s
sys	0m0.015s
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=  1.4958e-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 ->     12.081 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6750e-06) with 0 suppressions
+ set +x
data\basic\designG7 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 120 / 279 )
data\basic\designG8.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG8.csm' -outLevel 0 -tess
--> 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=  1.4958e-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=  2.1409e-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=  1.4261e-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=  1.8673e-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 ->     25.069 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6750e-06) with 0 suppressions

real	0m32.648s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designG8 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 121 / 279 )
data\basic\designG9.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designG9.csm' -outLevel 0 -tess
--> 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=  4.8535e-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

real	0m6.047s
user	0m0.000s
sys	0m0.015s
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=  4.7251e-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 ->      2.994 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.2239e-07) with 0 suppressions
+ set +x
data\basic\designG9 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 122 / 279 )
data\basic\designGA.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designGA.csm' -outLevel 0 -tess
--> 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=  1.1726e-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=  4.4407e-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 ->      0.564 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6858e-07) with 0 suppressions

real	0m1.125s
user	0m0.015s
sys	0m0.046s
+ set +x
data\basic\designGA -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 123 / 279 )
data\basic\designGB.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designGB.csm' -outLevel 0 -tess
--> 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=  9.1530e-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 ->      0.584 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.8874e-07) with 0 suppressions

real	0m1.545s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designGB -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 124 / 279 )
data\basic\designH1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designH1.csm' -outLevel 0 -tess
--> 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 ->      0.016 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.305s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designH1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 125 / 279 )
data\basic\designH2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designH2.csm' -outLevel 0 -tess
--> 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 ->      0.035 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.389s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designH2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 126 / 279 )
data\basic\designH3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designH3.csm' -outLevel 0 -tess
--> 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 ->      0.008 sec

Sensitivity checks complete with        2 total errors (max tess err=  2.0000e-03) with 13 suppressions

real	0m0.437s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designH3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 127 / 279 )
data\basic\designH4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designH4.csm' -outLevel 0 -tess
--> 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 ->      0.015 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 12 suppressions

real	0m0.458s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designH4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 128 / 279 )
data\basic\designI1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designI1.csm' -outLevel 0 -tess
--> 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=  5.2524e-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

real	0m0.518s
user	0m0.000s
sys	0m0.031s
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=  2.2882e-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 ->      0.038 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designI1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 129 / 279 )
data\basic\designI2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designI2.csm' -outLevel 0 -tess
--> 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=  5.2524e-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

real	0m0.690s
user	0m0.015s
sys	0m0.000s
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 ->      0.041 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.5773e-16) with 0 suppressions
+ set +x
data\basic\designI2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 130 / 279 )
data\basic\designI3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designI3.csm' -outLevel 0 -tess
--> 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=  5.2524e-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 ->      0.043 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.516s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designI3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 131 / 279 )
data\basic\designI4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designI4.csm' -outLevel 0 -tess
--> 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=  5.2524e-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=  5.2524e-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=  5.2524e-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

real	0m1.004s
user	0m0.015s
sys	0m0.000s
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=  2.2882e-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 ->      0.115 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designI4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 132 / 279 )
data\basic\designJ1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ1a.csm' -outLevel 0 -tess
--> 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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3261e-16) with 0 suppressions

real	0m0.214s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designJ1a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 133 / 279 )
data\basic\designJ1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ1b.csm' -outLevel 0 -tess
--> 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

real	0m0.263s
user	0m0.000s
sys	0m0.046s
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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3261e-16) with 0 suppressions
+ set +x
data\basic\designJ1b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 134 / 279 )
data\basic\designJ1c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ1c.csm' -outLevel 0 -tess
--> 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 ->      0.002 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.2793e-17) with 0 suppressions

real	0m0.220s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designJ1c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 135 / 279 )
data\basic\designJ1d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ1d.csm' -outLevel 0 -tess
--> 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

real	0m0.235s
user	0m0.015s
sys	0m0.016s
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 ->      0.003 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.9652e-16) with 0 suppressions
+ set +x
data\basic\designJ1d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 136 / 279 )
data\basic\designJ2a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ2a.csm' -outLevel 0 -tess
--> 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

real	0m0.998s
user	0m0.000s
sys	0m0.000s
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 ->      0.556 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.2934e-16) with 0 suppressions
+ set +x
data\basic\designJ2a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 137 / 279 )
data\basic\designJ2b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ2b.csm' -outLevel 0 -tess
--> 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 ->      0.531 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3816e-16) with 0 suppressions

real	0m0.932s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designJ2b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 138 / 279 )
data\basic\designJ3a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ3a.csm' -outLevel 0 -tess
--> 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

real	0m1.397s
user	0m0.000s
sys	0m0.000s
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 ->      0.544 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.2934e-16) with 0 suppressions
+ set +x
data\basic\designJ3a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 139 / 279 )
data\basic\designJ3b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ3b.csm' -outLevel 0 -tess
--> 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 ->      0.603 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3816e-16) with 0 suppressions

real	0m1.005s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designJ3b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 140 / 279 )
data\basic\designJ4a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ4a.csm' -outLevel 0 -tess
--> 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

real	0m2.178s
user	0m0.000s
sys	0m0.000s
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 ->      1.560 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.4035e-16) with 0 suppressions
+ set +x
data\basic\designJ4a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 141 / 279 )
data\basic\designJ4b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ4b.csm' -outLevel 0 -tess
--> 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

real	0m2.376s
user	0m0.015s
sys	0m0.031s
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 ->      1.513 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4402e-06) with 0 suppressions
+ set +x
data\basic\designJ4b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 142 / 279 )
data\basic\designJ5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designJ5.csm' -outLevel 0 -tess
--> 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 ->      0.029 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4692e-16) with 0 suppressions

real	0m0.495s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designJ5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 143 / 279 )
data\basic\designK0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designK0.csm' -outLevel 0 -tess
--> 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=  2.4715e-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 ->      0.420 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.3215e-06) with 0 suppressions

real	0m3.823s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designK0 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 144 / 279 )
data\basic\designK1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designK1.csm' -outLevel 0 -tess
--> 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=  2.2380e-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

real	0m5.886s
user	0m0.000s
sys	0m0.015s
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=  2.4715e-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 ->      0.550 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.3215e-06) with 0 suppressions
+ set +x
data\basic\designK1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 145 / 279 )
data\basic\designK2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designK2.csm' -outLevel 0 -tess
--> 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=  2.3235e-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 ->      2.344 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.3215e-06) with 0 suppressions

real	0m42.650s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designK2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 146 / 279 )
data\basic\designL00.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL00.csm' -outLevel 0 -tess
--> 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

real	0m0.758s
user	0m0.015s
sys	0m0.000s
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 ->      0.048 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions
+ set +x
data\basic\designL00 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 147 / 279 )
data\basic\designL01.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL01.csm' -outLevel 0 -tess
--> 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 ->      0.049 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions

real	0m0.662s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designL01 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 148 / 279 )
data\basic\designL10.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL10.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m1.057s
user	0m0.000s
sys	0m0.000s
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 ->      0.053 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions
+ set +x
data\basic\designL10 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 149 / 279 )
data\basic\designL11.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL11.csm' -outLevel 0 -tess
--> 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

real	0m1.606s
user	0m0.015s
sys	0m0.015s
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 ->      0.581 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions
+ set +x
data\basic\designL11 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 150 / 279 )
data\basic\designL12.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL12.csm' -outLevel 0 -tess
--> 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 ->      0.561 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions

real	0m1.444s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designL12 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 151 / 279 )
data\basic\designL20.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL20.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m1.240s
user	0m0.015s
sys	0m0.015s
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 ->      0.083 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions
+ set +x
data\basic\designL20 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 152 / 279 )
data\basic\designL21.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL21.csm' -outLevel 0 -tess
--> 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 ->      0.572 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions

real	0m1.530s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designL21 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 153 / 279 )
data\basic\designL22.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL22.csm' -outLevel 0 -tess
--> 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 ->      0.573 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions

real	0m1.566s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designL22 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 154 / 279 )
data\basic\designL30.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL30.csm' -outLevel 0 -tess
--> 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 ->      0.074 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions

real	0m0.851s
user	0m0.000s
sys	0m0.046s
+ set +x
data\basic\designL30 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 155 / 279 )
data\basic\designL31.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL31.csm' -outLevel 0 -tess
--> 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=  1.0134e-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

real	0m3.797s
user	0m0.015s
sys	0m0.015s
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 ->      2.184 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7294e-05) with 0 suppressions
+ set +x
data\basic\designL31 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 156 / 279 )
data\basic\designL32.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL32.csm' -outLevel 0 -tess
--> 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=  1.0134e-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 ->      2.171 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7294e-05) with 0 suppressions

real	0m3.844s
user	0m0.000s
sys	0m0.030s
+ set +x
data\basic\designL32 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 157 / 279 )
data\basic\designL33.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL33.csm' -outLevel 0 -tess
--> 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=  1.0134e-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

real	0m3.542s
user	0m0.000s
sys	0m0.047s
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 ->      2.049 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7294e-05) with 0 suppressions
+ set +x
data\basic\designL33 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 158 / 279 )
data\basic\designL34.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL34.csm' -outLevel 0 -tess
--> 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=  1.0134e-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

real	0m3.550s
user	0m0.000s
sys	0m0.046s
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 ->      1.980 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7294e-05) with 0 suppressions
+ set +x
data\basic\designL34 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 159 / 279 )
data\basic\designL40.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL40.csm' -outLevel 0 -tess
--> 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 ->      0.058 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7322e-05) with 0 suppressions

real	0m0.805s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designL40 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 160 / 279 )
data\basic\designL41.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL41.csm' -outLevel 0 -tess
--> 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=  3.7197e-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=  1.8760e-15)
    d(Edge)/d(zbeg) check complete with        0 total errors (errmax=  1.8746e-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=  5.2105e-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=  4.2642e-15)
    d(Node)/d(scale) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      2.278 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7294e-05) with 0 suppressions

real	0m4.293s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designL41 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 161 / 279 )
data\basic\designL42.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designL42.csm' -outLevel 0 -tess
--> 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

real	0m3.987s
user	0m0.000s
sys	0m0.015s
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 ->      2.259 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.7294e-05) with 0 suppressions
+ set +x
data\basic\designL42 -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 162 / 279 )
data\basic\designM0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designM0.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.472s
user	0m0.015s
sys	0m0.015s
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 ->      0.053 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designM0 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 163 / 279 )
data\basic\designM1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designM1.csm' -outLevel 0 -tess
--> 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 ->      0.011 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.527s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designM1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 164 / 279 )
data\basic\designM2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designM2.csm' -outLevel 0 -tess
--> 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 ->      0.014 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.676s
user	0m0.031s
sys	0m0.000s
+ set +x
data\basic\designM2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 165 / 279 )
data\basic\designM3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designM3.csm' -outLevel 0 -tess
--> 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 ->      0.929 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.1980e-15) with 0 suppressions

real	0m2.080s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designM3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 166 / 279 )
data\basic\designM4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designM4.csm' -outLevel 0 -tess
--> 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

real	0m2.050s
user	0m0.000s
sys	0m0.015s
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 ->      0.840 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.1980e-15) with 0 suppressions
+ set +x
data\basic\designM4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 167 / 279 )
data\basic\designN1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designN1.csm' -outLevel 0 -tess
--> 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 ->      0.001 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.9970e-06) with 0 suppressions

real	0m0.202s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designN1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 168 / 279 )
data\basic\designN2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designN2.csm' -outLevel 0 -tess
--> 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 ->      0.002 sec

Sensitivity checks complete with       26 total errors (max tess err=  5.5591e-03) with 0 suppressions

real	0m0.310s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designN2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 169 / 279 )
data\basic\designP0a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP0a.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.259s
user	0m0.015s
sys	0m0.000s
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 ->      0.000 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.0702e-15) with 0 suppressions
+ set +x
data\basic\designP0a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 170 / 279 )
data\basic\designP0b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP0b.csm' -outLevel 0 -tess
--> 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 ->      0.010 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.0702e-15) with 0 suppressions

real	0m0.372s
user	0m0.000s
sys	0m0.047s
+ set +x
data\basic\designP0b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 171 / 279 )
data\basic\designP0c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP0c.csm' -outLevel 0 -tess
--> 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 ->      0.018 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.9437e-07) with 0 suppressions

real	0m0.355s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designP0c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 172 / 279 )
data\basic\designP0d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP0d.csm' -outLevel 0 -tess
--> 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 ->      0.017 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.4148e-07) with 0 suppressions

real	0m0.299s
user	0m0.015s
sys	0m0.047s
+ set +x
data\basic\designP0d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 173 / 279 )
data\basic\designP1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP1a.csm' -outLevel 0 -tess
--> 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

real	0m1.121s
user	0m0.015s
sys	0m0.000s
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 ->      0.179 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.4048e-15) with 0 suppressions
+ set +x
data\basic\designP1a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 174 / 279 )
data\basic\designP1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP1b.csm' -outLevel 0 -tess
--> 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 ->      3.097 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.0417e-15) with 0 suppressions

real	0m4.084s
user	0m0.015s
sys	0m0.046s
+ set +x
data\basic\designP1b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 175 / 279 )
data\basic\designP1c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP1c.csm' -outLevel 0 -tess
--> 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 ->      2.849 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.9501e-07) with 0 suppressions

real	0m3.759s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designP1c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 176 / 279 )
data\basic\designP1d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP1d.csm' -outLevel 0 -tess
--> 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

real	0m4.496s
user	0m0.015s
sys	0m0.015s
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 ->      3.270 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.2404e-07) with 0 suppressions
+ set +x
data\basic\designP1d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 177 / 279 )
data\basic\designP2a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP2a.csm' -outLevel 0 -tess
--> 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

real	0m1.134s
user	0m0.000s
sys	0m0.062s
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 ->      0.186 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.3291e-15) with 0 suppressions
+ set +x
data\basic\designP2a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 178 / 279 )
data\basic\designP2b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP2b.csm' -outLevel 0 -tess
--> 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

real	0m4.727s
user	0m0.000s
sys	0m0.015s
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 ->      3.329 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.3291e-15) with 0 suppressions
+ set +x
data\basic\designP2b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 179 / 279 )
data\basic\designP2c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP2c.csm' -outLevel 0 -tess
--> 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 ->      2.754 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.9501e-07) with 0 suppressions

real	0m3.962s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designP2c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 180 / 279 )
data\basic\designP2d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP2d.csm' -outLevel 0 -tess
--> 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

real	0m5.021s
user	0m0.000s
sys	0m0.031s
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 ->      3.306 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.2404e-07) with 0 suppressions
+ set +x
data\basic\designP2d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 181 / 279 )
data\basic\designP3a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP3a.csm' -outLevel 0 -tess
--> 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

real	0m1.792s
user	0m0.015s
sys	0m0.000s
Computing analytic sensitivities (if possible) for ibody=25
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.729 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designP3a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 182 / 279 )
data\basic\designP3b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP3b.csm' -outLevel 0 -tess
--> 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 ->      0.808 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m2.044s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designP3b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 183 / 279 )
data\basic\designP3c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP3c.csm' -outLevel 0 -tess
--> 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

real	0m2.544s
user	0m0.000s
sys	0m0.000s
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      1.538 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designP3c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 184 / 279 )
data\basic\designP3d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP3d.csm' -outLevel 0 -tess
--> 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 ->      2.003 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m3.282s
user	0m0.031s
sys	0m0.000s
+ set +x
data\basic\designP3d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 185 / 279 )
data\basic\designP4a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP4a.csm' -outLevel 0 -tess
--> 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=  1.1226e-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=  6.5319e-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=  7.0555e-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=  7.5991e-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=  8.5958e-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=  1.0087e-15)
    d(Edge)/d(DY3) check complete with        0 total errors (errmax=  3.6800e-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=  1.5816e-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=  1.7213e-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 ->      0.046 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3128e-05) with 0 suppressions

real	0m1.320s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designP4a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 186 / 279 )
data\basic\designP4b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP4b.csm' -outLevel 0 -tess
--> 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=  5.8874e-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

real	0m9.708s
user	0m0.000s
sys	0m0.031s
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 ->      7.668 sec

Sensitivity checks complete with       14 total errors (max tess err=  1.1926e-04) with 0 suppressions
+ set +x
data\basic\designP4b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 187 / 279 )
data\basic\designP4c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP4c.csm' -outLevel 0 -tess
--> 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

real	0m6.557s
user	0m0.015s
sys	0m0.000s
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 ->      4.850 sec

Sensitivity checks complete with        6 total errors (max tess err=  1.1926e-04) with 0 suppressions
+ set +x
data\basic\designP4c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 188 / 279 )
data\basic\designP4d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP4d.csm' -outLevel 0 -tess
--> 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 ->      4.057 sec

Sensitivity checks complete with       10 total errors (max tess err=  1.1926e-04) with 0 suppressions

real	0m6.338s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designP4d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 189 / 279 )
data\basic\designP5a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP5a.csm' -outLevel 0 -tess
--> 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=  2.1364e-16)
    d(Edge)/d(rad) check complete with        0 total errors (errmax=  4.4409e-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=  2.1030e-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 ->      0.045 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5406e-06) with 0 suppressions

real	0m0.760s
user	0m0.031s
sys	0m0.015s
+ set +x
data\basic\designP5a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 190 / 279 )
data\basic\designP5b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designP5b.csm' -outLevel 0 -tess
--> 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=  2.1364e-16)
    d(Edge)/d(rad) check complete with        0 total errors (errmax=  4.4409e-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=  2.1030e-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

real	0m0.762s
user	0m0.000s
sys	0m0.015s
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 ->      0.044 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.5406e-06) with 0 suppressions
+ set +x
data\basic\designP5b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 191 / 279 )
data\basic\designQ1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designQ1.csm' -outLevel 0 -tess
--> 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	0m0.358s
user	0m0.031s
sys	0m0.015s
+ set +x
data\basic\designQ1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 192 / 279 )
data\basic\designQ2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designQ2.csm' -outLevel 0 -tess
--> 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=  2.1888e-15)
    d(Edge)/d(L1) check complete with        0 total errors (errmax=  2.1163e-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

real	0m0.270s
user	0m0.000s
sys	0m0.015s
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=  2.6102e-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 ->      0.001 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.5527e-15) with 0 suppressions
+ set +x
data\basic\designQ2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 193 / 279 )
data\basic\designR0a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR0a.csm' -outLevel 0 -tess
--> 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=  1.3666e-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=  1.7198e-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=  1.8994e-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=  9.9537e-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

real	0m0.523s
user	0m0.000s
sys	0m0.000s
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=  1.6375e-17)
    d(Node)/d(poly) check complete with        0 total errors (errmax=  6.4586e-19)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.048 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.9065e-17) with 0 suppressions
+ set +x
data\basic\designR0a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 194 / 279 )
data\basic\designR0b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR0b.csm' -outLevel 0 -tess
--> 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=  2.1161e-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=  1.9538e-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=  2.1880e-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=  1.8152e-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=  1.9100e-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=  1.4778e-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=  1.6897e-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=  1.5114e-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=  1.5923e-17)
    d(Node)/d(poly) check complete with        0 total errors (errmax=  0.0000e+00)

*********************************************************
Starting tessellation sensitivity wrt "poly[2,5]"
*********************************************************


real	0m0.186s
user	0m0.000s
sys	0m0.016s
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=  1.7565e-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=  2.1890e-17) with 0 suppressions
+ set +x
data\basic\designR0b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 195 / 279 )
data\basic\designR0c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR0c.csm' -outLevel 0 -tess
--> 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=  7.7542e-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=  2.9823e-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=  4.2628e-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=  6.3843e-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

real	0m0.473s
user	0m0.015s
sys	0m0.031s
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=  5.3924e-15)
    d(Node)/d(param) check complete with        0 total errors (errmax=  9.0141e-20)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.034 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.1498e-06) with 0 suppressions
+ set +x
data\basic\designR0c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 196 / 279 )
data\basic\designR0d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR0d.csm' -outLevel 0 -tess
--> 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=  3.9624e-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=  1.3672e-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=  2.1227e-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

real	0m0.189s
user	0m0.000s
sys	0m0.015s
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=  2.9919e-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 ->      0.010 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.7959e-06) with 0 suppressions
+ set +x
data\basic\designR0d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 197 / 279 )
data\basic\designR0e.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR0e.csm' -outLevel 0 -tess
--> 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=  7.7594e-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=  2.7369e-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=  5.8203e-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=  5.5877e-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 ->      0.044 sec

Sensitivity checks complete with        0 total errors (max tess err=  9.4944e-06) with 0 suppressions

real	0m0.391s
user	0m0.015s
sys	0m0.016s
+ set +x
data\basic\designR0e -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 198 / 279 )
data\basic\designR1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR1a.csm' -outLevel 0 -tess
--> 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=  1.5598e-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=  1.4554e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.8758e-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=  1.6440e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  2.2341e-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=  8.1796e-18)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  8.8974e-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=  1.3351e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.9543e-17)
    d(Node)/d(poly) check complete with        0 total errors (errmax=  6.4586e-19)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.747 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.1453e-16) with 0 suppressions

real	0m2.399s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designR1a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 199 / 279 )
data\basic\designR1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR1b.csm' -outLevel 0 -tess
--> 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=  1.8034e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.8942e-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=  1.6063e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  2.3194e-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=  1.7635e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  2.2784e-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=  1.6575e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.9167e-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=  1.6303e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  2.1904e-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=  1.3295e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.5587e-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=  1.3953e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.6756e-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=  1.3718e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.6524e-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=  1.3161e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  1.4563e-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=  1.3518e-17)
    d(Edge)/d(poly) check complete with        0 total errors (errmax=  2.0770e-17)
    d(Node)/d(poly) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.366 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0558e-16) with 0 suppressions

real	0m1.042s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designR1b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 200 / 279 )
data\basic\designR1c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR1c.csm' -outLevel 0 -tess
--> 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=  6.3601e-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=  2.6052e-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=  3.4508e-16)
    d(Edge)/d(param) check complete with        0 total errors (errmax=  4.1202e-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=  6.6313e-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

real	0m1.429s
user	0m0.000s
sys	0m0.031s
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=  3.9755e-15)
    d(Edge)/d(param) check complete with        0 total errors (errmax=  4.8833e-15)
    d(Node)/d(param) check complete with        0 total errors (errmax=  9.0141e-20)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.676 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0060e-05) with 0 suppressions
+ set +x
data\basic\designR1c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 201 / 279 )
data\basic\designR1d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR1d.csm' -outLevel 0 -tess
--> 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=  3.7982e-17)
    d(Edge)/d(param) check complete with        0 total errors (errmax=  3.7982e-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=  1.3028e-17)
    d(Edge)/d(param) check complete with        0 total errors (errmax=  1.3028e-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=  2.0776e-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=  2.9321e-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

real	0m0.527s
user	0m0.000s
sys	0m0.046s
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 ->      0.167 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.9280e-06) with 0 suppressions
+ set +x
data\basic\designR1d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 202 / 279 )
data\basic\designR1e.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR1e.csm' -outLevel 0 -tess
--> 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=  5.8297e-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=  1.8738e-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

real	0m1.333s
user	0m0.000s
sys	0m0.015s
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=  2.5137e-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 ->      0.735 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0210e-05) with 0 suppressions
+ set +x
data\basic\designR1e -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 203 / 279 )
data\basic\designR2a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR2a.csm' -outLevel 0 -tess
--> 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 ->      4.928 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9193e-08) with 0 suppressions

real	0m6.686s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designR2a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 204 / 279 )
data\basic\designR2b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR2b.csm' -outLevel 0 -tess
--> 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 ->      2.362 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.5424e-12) with 0 suppressions

real	0m3.016s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designR2b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 205 / 279 )
data\basic\designR2c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR2c.csm' -outLevel 0 -tess
--> 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

real	0m6.236s
user	0m0.000s
sys	0m0.000s
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 ->      4.616 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0060e-05) with 0 suppressions
+ set +x
data\basic\designR2c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 206 / 279 )
data\basic\designR2d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR2d.csm' -outLevel 0 -tess
--> 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=  2.8314e-15)
    d(Edge)/d(param) check complete with        0 total errors (errmax=  2.8314e-15)
    d(Node)/d(param) check complete with        0 total errors (errmax=  6.8402e-17)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      1.771 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.9280e-06) with 0 suppressions

real	0m2.742s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designR2d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 207 / 279 )
data\basic\designR2e.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR2e.csm' -outLevel 0 -tess
--> 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 ->      5.630 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0210e-05) with 0 suppressions

real	0m7.319s
user	0m0.015s
sys	0m0.031s
+ set +x
data\basic\designR2e -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 208 / 279 )
data\basic\designR3a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR3a.csm' -outLevel 0 -tess
--> 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 ->      5.215 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9193e-08) with 0 suppressions

real	0m6.914s
user	0m0.000s
sys	0m0.046s
+ set +x
data\basic\designR3a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 209 / 279 )
data\basic\designR3b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR3b.csm' -outLevel 0 -tess
--> 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

real	0m6.788s
user	0m0.000s
sys	0m0.000s
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 ->      5.186 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.9193e-08) with 0 suppressions
+ set +x
data\basic\designR3b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 210 / 279 )
data\basic\designR3c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR3c.csm' -outLevel 0 -tess
--> 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

real	0m6.188s
user	0m0.000s
sys	0m0.015s
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 ->      4.704 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0060e-05) with 0 suppressions
+ set +x
data\basic\designR3c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 211 / 279 )
data\basic\designR3d.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR3d.csm' -outLevel 0 -tess
--> 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=  2.0489e-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

real	0m3.318s
user	0m0.000s
sys	0m0.015s
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=  2.8313e-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 ->      2.241 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.9280e-06) with 0 suppressions
+ set +x
data\basic\designR3d -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 212 / 279 )
data\basic\designR3e.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designR3e.csm' -outLevel 0 -tess
--> 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

real	0m7.709s
user	0m0.000s
sys	0m0.031s
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 ->      5.861 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.0210e-05) with 0 suppressions
+ set +x
data\basic\designR3e -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 213 / 279 )
data\basic\designS1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designS1.csm' -outLevel 0 -tess
--> 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

real	0m1.397s
user	0m0.000s
sys	0m0.000s
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 ->      0.458 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.7141e-16) with 0 suppressions
+ set +x
data\basic\designS1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 214 / 279 )
data\basic\designS2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designS2.csm' -outLevel 0 -tess
--> 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

real	0m1.294s
user	0m0.030s
sys	0m0.000s
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 ->      0.522 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.7141e-16) with 0 suppressions
+ set +x
data\basic\designS2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 215 / 279 )
data\basic\designS3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designS3.csm' -outLevel 0 -tess
--> 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 189b1280830
             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 189b1281270
             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 189b1280d30
             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 189b12815b0
             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 189b1281170
             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 189b1281330
             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 189b1280870
             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 189b1281430
             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 189b12808b0
             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 189b12808f0
             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 189b1280e70
             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 189b12810b0
             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 189b1280a30
             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 189b1280db0
             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 189b1281370
             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 189b1281530
             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 189b1280ef0
             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 189b12813b0
             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 189b12806f0
             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 189b1280cb0
             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 189b1280ff0
             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 189b1280970
             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 189b1280ab0
             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 189b1280730
             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=189b125ccc0,  eref0=0 (0:0)
. oclass1= 24 (shell)  mtype1=  4 (closed)  obj=189b125c800,  eref1=0 (0:0)
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125c3c0,  eref2=189b125e000 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125c7c0,  eref3=189b125e000 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125c680,  eref4=189b125d000 (11:1)
. . . . < trange=   7.95804   10.00000, arcLength=    2.0419601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd00,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cd80,  eref4=189b125c480 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c780,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd00,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cc40,  eref4=189b125c440 (11:1)
. . . . < trange=   7.95804   10.00000, arcLength=    2.0419601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c780,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cf00,  eref4=189b125c400 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125ce80,  eref2=189b125dd00 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125c380,  eref3=189b125dd00 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125c680,  eref4=189b125d000 (11:1)
. . . . < trange=   7.95804   10.00000, arcLength=    2.0419601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd00,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d0c0,  eref4=189b125c4c0 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cc40,  eref4=189b125c440 (11:1)
. . . . < trange=   7.95804   10.00000, arcLength=    2.0419601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c780,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cb40,  eref4=189b125d180 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd00,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c780,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125c580,  eref2=189b125e100 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125c500,  eref3=189b125e100 (0:0)
. . . < senses= 1 -1 -1  1 -1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cdc0,  eref4=189b125c540 (11:2)
. . . . < trange=   6.45063    7.85398, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd40,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b125cf40,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd40,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d280,  eref4=189b125c8c0 (11:8)
. . . . < trange=   0.16745    1.57080, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd40,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cb80,  eref4=189b125c600 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125c700,  eref4=189b125c5c0 (11:8)
. . . . < trange=  -1.57080   -0.16745, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c940,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b125ca40,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c940,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125c980,  eref4=189b125d1c0 (11:2)
. . . . < trange=   4.71239    6.11574, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c940,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cf00,  eref4=189b125c400 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125cac0,  eref2=189b125da40 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125cc00,  eref3=0 (0:0)
. . . < senses= 1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cd80,  eref4=189b125c480 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c780,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd00,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cb40,  eref4=189b125d180 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd00,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c780,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125cfc0,  eref2=189b125da80 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125c9c0,  eref3=189b125da80 (0:0)
. . . < senses= 1 -1 -1 -1 -1  1  1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d280,  eref4=189b125c8c0 (11:8)
. . . . < trange=   0.16745    1.57080, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd40,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b125c6c0,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd40,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cdc0,  eref4=189b125c540 (11:2)
. . . . < trange=   6.45063    7.85398, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cd40,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d0c0,  eref4=189b125c4c0 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125cec0,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125c980,  eref4=189b125d1c0 (11:2)
. . . . < trange=   4.71239    6.11574, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c940,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d080,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b125cf80,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c940,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125c700,  eref4=189b125c5c0 (11:8)
. . . . < trange=  -1.57080   -0.16745, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c940,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125ce00,  eref4=189b125c900 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125cb00,  eref2=189b125e200 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125d140,  eref3=189b125e200 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125ce40,  eref4=189b125ca80 (11:1)
. . . . < trange=   0.00000    2.04196, arcLength=    2.0419606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d240,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cb80,  eref4=189b125c600 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d2c0,  eref4=189b125d400 (11:1)
. . . . < trange=   0.00000    2.04196, arcLength=    2.0419606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d200,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cc80,  eref4=189b125d7c0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d200,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d240,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b125c880,  eref2=189b125df40 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125d040,  eref3=189b125df40 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125ce40,  eref4=189b125ca80 (11:1)
. . . . < trange=   0.00000    2.04196, arcLength=    2.0419606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d240,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d100,  eref4=189b125d440 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d240,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d200,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d2c0,  eref4=189b125d400 (11:1)
. . . . < trange=   0.00000    2.04196, arcLength=    2.0419606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d200,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125ce00,  eref4=189b125c900 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c840,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125c340,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2= -1 (sreverse)  obj=189b125ca00,  eref2=189b125d780 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b125cbc0,  eref3=0 (0:0)
. . . < senses=-1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125cc80,  eref4=189b125d7c0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d200,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d240,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b125d100,  eref4=189b125d440 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d240,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b125d200,  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 189b19cef20
             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 189b19cefe0
             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 189b19cf020
             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 189b19cff20
             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 189b19cf860
             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 189b19cfbe0
             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 189b19cf820
             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 189b19cf720
             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 189b19d0160
             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 189b19cf920
             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 189b19d04a0
             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 189b19cf9a0
             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 189b19cf6e0
             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 189b19cf6a0
             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 189b19cfc20
             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 189b19d0560
             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 189b19d04e0
             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 189b19cfc60
             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 189b19cfca0
             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 189b19d0320
             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 189b19d05a0
             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 189b19cfa20
             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 189b19cfaa0
             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 189b19cfd60
             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=189b19d0e20,  eref0=0 (0:0)
. oclass1= 24 (shell)  mtype1=  4 (closed)  obj=189b19cfea0,  eref1=0 (0:0)
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cffa0,  eref2=189b1cf6000 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d0fa0,  eref3=189b1cf6000 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0920,  eref4=189b19cff60 (11:1)
. . . . < trange=   7.96304   10.01000, arcLength=    2.0469601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d14e0,  data5=    5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d06a0,  eref4=189b19d00e0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d11e0,  data5=    5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d14e0,  data5=    5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0ea0,  eref4=189b19d0060 (11:1)
. . . . < trange=   7.96304   10.01000, arcLength=    2.0469601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d11e0,  data5=    5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d09e0,  eref4=189b19cffe0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cfb60,  eref2=189b1cf5dc0 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d0fe0,  eref3=189b1cf5dc0 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0920,  eref4=189b19cff60 (11:1)
. . . . < trange=   7.96304   10.01000, arcLength=    2.0469601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d14e0,  data5=    5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0ba0,  eref4=189b1cf5b00 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0ea0,  eref4=189b19d0060 (11:1)
. . . . < trange=   7.96304   10.01000, arcLength=    2.0469601085e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d11e0,  data5=    5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0760,  eref4=189b19d0120 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d14e0,  data5=    5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d11e0,  data5=    5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cf660,  eref2=189b1cf5180 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d1060,  eref3=189b1cf5180 (0:0)
. . . < senses= 1 -1 -1  1 -1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d1260,  eref4=189b1cf5ac0 (11:2)
. . . . < trange=   6.45063    7.85398, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0de0,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19d0e60,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0de0,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0da0,  eref4=189b1cf5580 (11:8)
. . . . < trange=   0.16745    1.57080, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0de0,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0d60,  eref4=189b1cf5600 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0d20,  eref4=189b1cf5440 (11:8)
. . . . < trange=  -1.57080   -0.16745, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1520,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19d0ca0,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1520,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0be0,  eref4=189b1cf5c40 (11:2)
. . . . < trange=   4.71239    6.11574, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1520,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d09e0,  eref4=189b19cffe0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cfba0,  eref2=189b1cf5940 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d1b60,  eref3=0 (0:0)
. . . < senses= 1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d06a0,  eref4=189b19d00e0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d11e0,  data5=    5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d14e0,  data5=    5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0760,  eref4=189b19d0120 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d14e0,  data5=    5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d11e0,  data5=    5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cfee0,  eref2=189b1cf5e80 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d2260,  eref3=189b1cf5e80 (0:0)
. . . < senses= 1 -1 -1 -1 -1  1  1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0da0,  eref4=189b1cf5580 (11:8)
. . . . < trange=   0.16745    1.57080, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0de0,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19d10a0,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0de0,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d1260,  eref4=189b1cf5ac0 (11:2)
. . . . < trange=   6.45063    7.85398, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0de0,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0ba0,  eref4=189b1cf5b00 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0a60,  data5=    2.9580398915e+00    -3.0102306854e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0be0,  eref4=189b1cf5c40 (11:2)
. . . . < trange=   4.71239    6.11574, arcLength=    4.2100447427e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1520,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0ae0,  data5=    2.9580398915e+00    -3.9287157847e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19d0ee0,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1520,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0d20,  eref4=189b1cf5440 (11:8)
. . . . < trange=  -1.57080   -0.16745, arcLength=    4.2100438903e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1520,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d1360,  eref4=189b1cf5e40 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cf960,  eref2=189b1cf5b40 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d1ca0,  eref3=189b1cf5b40 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d13e0,  eref4=189b1cf5fc0 (11:1)
. . . . < trange=   0.00000    2.04696, arcLength=    2.0469606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0b60,  data5=   -5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0d60,  eref4=189b1cf5600 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0f60,  eref4=189b1cf5f80 (11:1)
. . . . < trange=   0.00000    2.04696, arcLength=    2.0469606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1560,  data5=   -5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d15e0,  eref4=189b1cf5a40 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1560,  data5=   -5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0b60,  data5=   -5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cfde0,  eref2=189b1cf5500 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19d2320,  eref3=189b1cf5500 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d13e0,  eref4=189b1cf5fc0 (11:1)
. . . . < trange=   0.00000    2.04696, arcLength=    2.0469606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0b60,  data5=   -5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0660,  eref4=189b1cf5480 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0b60,  data5=   -5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1560,  data5=   -5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0f60,  eref4=189b1cf5f80 (11:1)
. . . . < trange=   0.00000    2.04696, arcLength=    2.0469606374e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1560,  data5=   -5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d1360,  eref4=189b1cf5e40 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d13a0,  data5=   -2.9580393626e+00     1.5051150188e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d12e0,  data5=   -2.9580393626e+00     2.4236001182e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2= -1 (sreverse)  obj=189b19cfe20,  eref2=189b1cf55c0 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19cf620,  eref3=0 (0:0)
. . . < senses=-1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d15e0,  eref4=189b1cf5a40 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1560,  data5=   -5.0050000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0b60,  data5=   -5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d0660,  eref4=189b1cf5480 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d0b60,  data5=   -5.0050000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19d1560,  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 189b1caed90
             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 189b19cf8a0
             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 189b1cb1910
             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 189b1cb1990
             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 189b1cb19d0
             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 189b1cb1b90
             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 189b1cb4250
             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 189b1cb2050
             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 189b1cb3d90
             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 189b1caf150
             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 189b1cae750
             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 189b1cb3410
             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 189b1cad910
             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 189b1cad950
             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 189b1cb1590
             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 189b1cb2dd0
             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 189b1cb3110
             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 189b1cb4090
             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 189b1cb34d0
             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 189b1cb1d50
             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 189b1cb2a10
             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 189b1cb2d10
             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 189b19d0260
             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 189b1cb2110
             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=189b19cba20,  eref0=0 (0:0)
. oclass1= 24 (shell)  mtype1=  4 (closed)  obj=189b19cd360,  eref1=0 (0:0)
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cdfa0,  eref2=189b19cb660 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19cdde0,  eref3=189b19cb660 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ca820,  eref4=189b19cd6e0 (11:1)
. . . . < trange=   7.95787   10.00000, arcLength=    2.0421293132e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbe20,  data5=    5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cdbe0,  eref4=189b19cc5a0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdca0,  data5=    5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbe20,  data5=    5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ce4e0,  eref4=189b19ca8a0 (11:1)
. . . . < trange=   7.95787   10.00000, arcLength=    2.0421293132e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdca0,  data5=    5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cd320,  eref4=189b19cf1e0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19ce2a0,  eref2=189b19cca20 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19cce20,  eref3=189b19cca20 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ca820,  eref4=189b19cd6e0 (11:1)
. . . . < trange=   7.95787   10.00000, arcLength=    2.0421293132e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbe20,  data5=    5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cc120,  eref4=189b19cb720 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ce4e0,  eref4=189b19ca8a0 (11:1)
. . . . < trange=   7.95787   10.00000, arcLength=    2.0421293132e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdca0,  data5=    5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cabe0,  eref4=189b19cc020 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbe20,  data5=    5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdca0,  data5=    5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cb120,  eref2=189b19cd2e0 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19ce0e0,  eref3=189b19cd2e0 (0:0)
. . . < senses= 1 -1 -1  1 -1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cb920,  eref4=189b19ce220 (11:2)
. . . . < trange=   6.45097    7.85398, arcLength=    4.2090305286e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cea20,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19ccaa0,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cea20,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cdba0,  eref4=189b19ce020 (11:8)
. . . . < trange=   0.16779    1.57080, arcLength=    4.2090296760e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cea20,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ce5a0,  eref4=189b19cdae0 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cd3e0,  eref4=189b19ccf60 (11:8)
. . . . < trange=  -1.57080   -0.16779, arcLength=    4.2090296760e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca8e0,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19cc5e0,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca8e0,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cb4a0,  eref4=189b19caf60 (11:2)
. . . . < trange=   4.71239    6.11540, arcLength=    4.2090305286e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca8e0,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cd320,  eref4=189b19cf1e0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cd5e0,  eref2=189b19caf20 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19cdb60,  eref3=0 (0:0)
. . . < senses= 1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cdbe0,  eref4=189b19cc5a0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdca0,  data5=    5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbe20,  data5=    5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cabe0,  eref4=189b19cc020 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbe20,  data5=    5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdca0,  data5=    5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19ccae0,  eref2=189b19cc260 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19ccea0,  eref3=189b19cc260 (0:0)
. . . < senses= 1 -1 -1 -1 -1  1  1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cdba0,  eref4=189b19ce020 (11:8)
. . . . < trange=   0.16779    1.57080, arcLength=    4.2090296760e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cea20,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19cb0e0,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cea20,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cb920,  eref4=189b19ce220 (11:2)
. . . . < trange=   6.45097    7.85398, arcLength=    4.2090305286e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cea20,  data5=    1.8369701987e-16    -4.4992793480e-32     3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cc120,  eref4=189b19cb720 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cd420,  data5=    2.9578706868e+00    -3.0087988225e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cb4a0,  eref4=189b19caf60 (11:2)
. . . . < trange=   4.71239    6.11540, arcLength=    4.2090305286e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca8e0,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca9a0,  data5=    2.9578706868e+00    -3.9291208921e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19ce420,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca8e0,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cd3e0,  eref4=189b19ccf60 (11:8)
. . . . < trange=  -1.57080   -0.16779, arcLength=    4.2090296760e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19ca8e0,  data5=    1.8369701987e-16    -4.4992793480e-32    -3.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ce3e0,  eref4=189b19ccb60 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19ccbe0,  eref2=189b19cc220 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19cdc20,  eref3=189b19cc220 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cc160,  eref4=189b19ce1e0 (11:1)
. . . . < trange=   0.00000    2.04213, arcLength=    2.0421298432e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cc560,  data5=   -5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ce5a0,  eref4=189b19cdae0 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cd3a0,  eref4=189b19ca660 (11:1)
. . . . < trange=   0.00000    2.04213, arcLength=    2.0421298432e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdf20,  data5=   -5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cbea0,  eref4=189b19ce120 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdf20,  data5=   -5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cc560,  data5=   -5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cdea0,  eref2=189b19cf1a0 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19ce5e0,  eref3=189b19cf1a0 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cc160,  eref4=189b19ce1e0 (11:1)
. . . . < trange=   0.00000    2.04213, arcLength=    2.0421298432e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cc560,  data5=   -5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cda60,  eref4=189b19cbb60 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cc560,  data5=   -5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdf20,  data5=   -5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cd3a0,  eref4=189b19ca660 (11:1)
. . . . < trange=   0.00000    2.04213, arcLength=    2.0421298432e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdf20,  data5=   -5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19ce3e0,  eref4=189b19ccb60 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbc20,  data5=   -2.9578701568e+00     1.5043990867e-16    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cbee0,  data5=   -2.9578701568e+00     2.4247211563e-16     5.0100000000e-01
. . oclass2= 23 (face)  mtype2= -1 (sreverse)  obj=189b19ce360,  eref2=189b19cbca0 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b19ccfa0,  eref3=0 (0:0)
. . . < senses=-1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cbea0,  eref4=189b19ce120 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdf20,  data5=   -5.0000000000e+00     1.2270960927e-16     5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cc560,  data5=   -5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19cda60,  eref4=189b19cbb60 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5739379194e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cc560,  data5=   -5.0000000000e+00    -6.1354804637e-17    -5.0100000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b19cdf20,  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=  6.4146e-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 189b19cb860
             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 189b19cc360
             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 189b1cac9d0
             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 189b1ba95a0
             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 189b1cacf10
             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 189b1cad190
             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 189b19cbde0
             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 189b1cac6d0
             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 189b19caea0
             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 189b19cd560
             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 189b19cdaa0
             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 189b19cd220
             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 189b19cdd20
             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 189b19cdd60
             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 189b1caddd0
             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 189b1cac750
             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 189b1caccd0
             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 189b19cb9e0
             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 189b19ccfe0
             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 189b19cf520
             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 189b19ceca0
             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 189b19cf9e0
             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 189b19ca7a0
             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 189b19cf020
             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=189b1cf5140,  eref0=0 (0:0)
. oclass1= 24 (shell)  mtype1=  4 (closed)  obj=189b1cb1690,  eref1=0 (0:0)
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b1caf010,  eref2=189b1cf84c0 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1caea50,  eref3=189b1cf84c0 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf7380,  eref4=189b1cb3610 (11:1)
. . . . < trange=   7.96108   10.00000, arcLength=    2.0389175966e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf6000,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb3210,  eref4=189b1cf64c0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cae390,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf6000,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb1dd0,  eref4=189b1cf6380 (11:1)
. . . . < trange=   7.96108   10.00000, arcLength=    2.0389175966e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cae390,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb2cd0,  eref4=189b1cb1610 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b1cb22d0,  eref2=189b1cb2510 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1cae5d0,  eref3=189b1cb2510 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf7380,  eref4=189b1cb3610 (11:1)
. . . . < trange=   7.96108   10.00000, arcLength=    2.0389175966e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf6000,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf62c0,  eref4=189b1cf7900 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb1dd0,  eref4=189b1cf6380 (11:1)
. . . . < trange=   7.96108   10.00000, arcLength=    2.0389175966e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cae390,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d00e0,  eref4=189b1cf7f80 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf6000,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cae390,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b1cf6100,  eref2=189b1cb0b90 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1caea90,  eref3=189b1cb0b90 (0:0)
. . . < senses= 1 -1 -1  1 -1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf59c0,  eref4=189b1cb26d0 (11:2)
. . . . < trange=   6.45046    7.85398, arcLength=    4.2147618728e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb30d0,  data5=    1.8388071689e-16    -4.5037786273e-32     3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b1cb3b90,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb30d0,  data5=    1.8388071689e-16    -4.5037786273e-32     3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb2810,  eref4=189b19cf8e0 (11:8)
. . . . < trange=   0.16728    1.57080, arcLength=    4.2147610196e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb30d0,  data5=    1.8388071689e-16    -4.5037786273e-32     3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb0a50,  eref4=189b1caebd0 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb3b50,  eref4=189b19d00a0 (11:8)
. . . . < trange=  -1.57080   -0.16728, arcLength=    4.2147610196e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7a80,  data5=    1.8388071689e-16    -4.5037786273e-32    -3.0030000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b19cff60,  eref4=0 (0:0)
. . . . < trange=   3.14159    6.28319, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7a80,  data5=    1.8388071689e-16    -4.5037786273e-32    -3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf6e80,  eref4=189b1cf7200 (11:2)
. . . . < trange=   4.71239    6.11591, arcLength=    4.2147618728e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7a80,  data5=    1.8388071689e-16    -4.5037786273e-32    -3.0030000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb2cd0,  eref4=189b1cb1610 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b1cb2010,  eref2=189b1cf5740 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1cb3750,  eref3=0 (0:0)
. . . < senses= 1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb3210,  eref4=189b1cf64c0 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cae390,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf6000,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b19d00e0,  eref4=189b1cf7f80 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf6000,  data5=    5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cae390,  data5=    5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b19cf7a0,  eref2=189b1cf52c0 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1cae4d0,  eref3=189b1cf52c0 (0:0)
. . . < senses= 1 -1 -1 -1 -1  1  1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb2810,  eref4=189b19cf8e0 (11:8)
. . . . < trange=   0.16728    1.57080, arcLength=    4.2147610196e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb30d0,  data5=    1.8388071689e-16    -4.5037786273e-32     3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b1cf5cc0,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb30d0,  data5=    1.8388071689e-16    -4.5037786273e-32     3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf59c0,  eref4=189b1cb26d0 (11:2)
. . . . < trange=   6.45046    7.85398, arcLength=    4.2147618728e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb30d0,  data5=    1.8388071689e-16    -4.5037786273e-32     3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf62c0,  eref4=189b1cf7900 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb16d0,  data5=    2.9610824034e+00    -3.0139566878e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf6e80,  eref4=189b1cf7200 (11:2)
. . . . < trange=   4.71239    6.11591, arcLength=    4.2147618728e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7a80,  data5=    1.8388071689e-16    -4.5037786273e-32    -3.0030000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf74c0,  data5=    2.9610824034e+00    -3.9324417872e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  5 (degenerate)  obj=189b1cb2a90,  eref4=0 (0:0)
. . . . < trange=   0.00000    3.14159, arcLength=    0.0000000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7a80,  data5=    1.8388071689e-16    -4.5037786273e-32    -3.0030000000e+00
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb3b50,  eref4=189b19d00a0 (11:8)
. . . . < trange=  -1.57080   -0.16728, arcLength=    4.2147610196e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7a80,  data5=    1.8388071689e-16    -4.5037786273e-32    -3.0030000000e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb1490,  eref4=189b1cb0a90 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b1cb3250,  eref2=189b19d0920 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1cb3890,  eref3=189b19d0920 (0:0)
. . . < senses= 1 -1 -1  1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf7240,  eref4=189b1cae450 (11:1)
. . . . < trange=   0.00000    2.03892, arcLength=    2.0389181255e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7180,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb0a50,  eref4=189b1caebd0 (11:2)
. . . . < trange=  -0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb15d0,  eref4=189b1cf5700 (11:1)
. . . . < trange=   0.00000    2.03892, arcLength=    2.0389181255e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb2e10,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf70c0,  eref4=189b1cb3910 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb2e10,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7180,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . oclass2= 23 (face)  mtype2=  1 (sforward)  obj=189b1cb2590,  eref2=189b1cb2ad0 (12:6)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1caead0,  eref3=189b1cb2ad0 (0:0)
. . . < senses=-1  1  1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf7240,  eref4=189b1cae450 (11:1)
. . . . < trange=   0.00000    2.03892, arcLength=    2.0389181255e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7180,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1caedd0,  eref4=189b19cffa0 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7180,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb2e10,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb15d0,  eref4=189b1cf5700 (11:1)
. . . . < trange=   0.00000    2.03892, arcLength=    2.0389181255e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb2e10,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cb1490,  eref4=189b1cb0a90 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf60c0,  data5=   -2.9610818745e+00     1.5069780200e-16    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf8000,  data5=   -2.9610818745e+00     2.4254631194e-16     5.0000000000e-01
. . oclass2= 23 (face)  mtype2= -1 (sreverse)  obj=189b1cb2990,  eref2=189b1cf7c40 (12:1)
. . < senses= 1  
. . . oclass3= 22 (loop)  mtype3=  4 (closed)  obj=189b1cb3d10,  eref3=0 (0:0)
. . . < senses=-1 -1  
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1cf70c0,  eref4=189b1cb3910 (11:2)
. . . . < trange=   0.00000    3.14159, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb2e10,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7180,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . oclass4= 21 (edge)  mtype4=  2 (twonode)  obj=189b1caedd0,  eref4=189b19cffa0 (11:2)
. . . . < trange=   3.14159    6.28319, arcLength=    1.5707963268e+00
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cf7180,  data5=   -5.0000000000e+00    -6.1232339957e-17    -5.0000000000e-01
. . . . . oclass5= 20 (node)  mtype5=  0,  obj=189b1cb2e10,  data5=   -5.0000000000e+00     1.2246467991e-16     5.0000000000e-01

real	0m1.148s
user	0m0.047s
sys	0m0.062s
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=  1.6022e-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 ->      0.033 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.3224e-05) with 0 suppressions
+ set +x
data\basic\designS3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 216 / 279 )
data\basic\designT1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designT1.csm' -outLevel 0 -tess
--> 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 ->      0.002 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0667e-07) with 0 suppressions

real	0m1.131s
user	0m0.015s
sys	0m0.030s
+ set +x
data\basic\designT1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 217 / 279 )
data\basic\designT2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designT2.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.638s
user	0m0.015s
sys	0m0.015s
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 ->      0.003 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0667e-07) with 0 suppressions
+ set +x
data\basic\designT2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 218 / 279 )
data\basic\designU1a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designU1a.csm' -outLevel 0 -tess
--> 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 ->      0.000 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.212s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designU1a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 219 / 279 )
data\basic\designU1b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designU1b.csm' -outLevel 0 -tess
--> 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 ->      0.002 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.230s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designU1b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 220 / 279 )
data\basic\designU1c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designU1c.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xbeg"
*********************************************************

Generating perturbed configuration with delta-xbeg[1,1]=   0.00500000

real	0m0.205s
user	0m0.000s
sys	0m0.000s
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 ->      0.001 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designU1c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 221 / 279 )
data\basic\designU2a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designU2a.csm' -outLevel 0 -tess
--> 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

real	0m0.398s
user	0m0.000s
sys	0m0.046s
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 ->      0.015 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designU2a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 222 / 279 )
data\basic\designU2b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designU2b.csm' -outLevel 0 -tess
--> 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 ->      0.017 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.500s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designU2b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 223 / 279 )
data\basic\designU2c.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designU2c.csm' -outLevel 0 -tess
--> 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 ->      0.015 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.409s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designU2c -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 224 / 279 )
data\basic\designV1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designV1.csm' -outLevel 0 -tess
--> 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=  2.6343e-16)
    d(Edge)/d(xA) check complete with        0 total errors (errmax=  2.7122e-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

real	0m0.358s
user	0m0.015s
sys	0m0.016s
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=  3.9406e-16)
    d(Edge)/d(yA) check complete with        0 total errors (errmax=  3.7939e-16)
    d(Node)/d(yA) check complete with        0 total errors (errmax=  2.2204e-16)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.026 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.3950e-06) with 0 suppressions
+ set +x
data\basic\designV1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 225 / 279 )
data\basic\designW0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designW0.csm' -outLevel 0 -tess
--> 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

real	0m0.497s
user	0m0.000s
sys	0m0.047s
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 ->      0.037 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.1016e-16) with 0 suppressions
+ set +x
data\basic\designW0 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 226 / 279 )
data\basic\designW1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designW1.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xcut"
*********************************************************

Generating perturbed configuration with delta-xcut[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(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 "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=  0.0000e+00)
    d(Edge)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=6
Computing distances of perturbed points from perturbed configuration for ibody=6
    d(Face)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
 

*********************************************************
Starting tessellation sensitivity wrt "fact"
*********************************************************

Generating perturbed configuration with delta-fact[1,1]=   0.00200000

real	0m0.425s
user	0m0.000s
sys	0m0.015s
Computing analytic sensitivities (if possible) for ibody=6
Computing distances of perturbed points from perturbed configuration for ibody=6
    d(Face)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(fact) 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=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designW1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 227 / 279 )
data\basic\designW2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designW2.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xcut"
*********************************************************

Generating perturbed configuration with delta-xcut[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(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 "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=  0.0000e+00)
    d(Edge)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=8
Computing distances of perturbed points from perturbed configuration for ibody=8
    d(Face)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=8
Computing distances of perturbed points from perturbed configuration for ibody=8
    d(Face)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
 

*********************************************************
Starting tessellation sensitivity wrt "fact"
*********************************************************

Generating perturbed configuration with delta-fact[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(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.040 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.541s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designW2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 228 / 279 )
data\basic\designW3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designW3.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xcut"
*********************************************************

Generating perturbed configuration with delta-xcut[1,1]=   0.00200000
Computing analytic sensitivities (if possible) for ibody=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    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 "xsize"
*********************************************************

Generating perturbed configuration with delta-xsize[1,1]=   0.00400000
Computing analytic sensitivities (if possible) for ibody=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
 

*********************************************************
Starting tessellation sensitivity wrt "fact"
*********************************************************

Generating perturbed configuration with delta-fact[1,1]=   0.00200000

real	0m0.646s
user	0m0.015s
sys	0m0.000s
Computing analytic sensitivities (if possible) for ibody=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.047 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designW3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 229 / 279 )
data\basic\designW4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designW4.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xcut"
*********************************************************

Generating perturbed configuration with delta-xcut[1,1]=   0.00200000
Computing analytic sensitivities (if possible) for ibody=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    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 "xsize"
*********************************************************

Generating perturbed configuration with delta-xsize[1,1]=   0.00400000
Computing analytic sensitivities (if possible) for ibody=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
 

*********************************************************
Starting tessellation sensitivity wrt "fact"
*********************************************************

Generating perturbed configuration with delta-fact[1,1]=   0.00200000

real	0m0.706s
user	0m0.000s
sys	0m0.061s
Computing analytic sensitivities (if possible) for ibody=16
Computing distances of perturbed points from perturbed configuration for ibody=16
    d(Face)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.049 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designW4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 230 / 279 )
data\basic\designW5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designW5.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xcut"
*********************************************************

Generating perturbed configuration with delta-xcut[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(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 "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=  0.0000e+00)
    d(Edge)/d(xsize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=7
Computing distances of perturbed points from perturbed configuration for ibody=7
    d(Face)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(ysize) check complete with        0 total errors (errmax=  0.0000e+00)
    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=7
Computing distances of perturbed points from perturbed configuration for ibody=7
    d(Face)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(zsize) check complete with        0 total errors (errmax=  0.0000e+00)
 

*********************************************************
Starting tessellation sensitivity wrt "fact"
*********************************************************

Generating perturbed configuration with delta-fact[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(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Edge)/d(fact) check complete with        0 total errors (errmax=  0.0000e+00)
    d(Node)/d(fact) 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=  2.0000e-20) with 0 suppressions

real	0m0.702s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designW5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 231 / 279 )
data\basic\designX1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX1.csm' -outLevel 0 -tess
--> 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 ->      0.007 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.8385e-07) with 0 suppressions

real	0m0.599s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designX1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 232 / 279 )
data\basic\designX2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX2.csm' -outLevel 0 -tess
--> 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=  0.0000e+00)
    d(Edge)/d(L) check complete with        0 total errors (errmax=  2.9322e-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=  9.5030e-08)
    d(Edge)/d(R) check complete with        0 total errors (errmax=  5.0219e-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=  0.0000e+00)
    d(Edge)/d(xA) check complete with        0 total errors (errmax=  1.4013e-15)
    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=  6.0935e-08)
    d(Edge)/d(yA) check complete with        0 total errors (errmax=  5.3437e-07)
    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=  0.0000e+00)
    d(Edge)/d(xB) check complete with        0 total errors (errmax=  9.5954e-16)
    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

real	0m1.594s
user	0m0.000s
sys	0m0.015s
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=  1.7792e-07)
    d(Edge)/d(yB) check complete with        0 total errors (errmax=  6.0420e-06)
    d(Node)/d(yB) check complete with        0 total errors (errmax=  8.8948e-07)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.200 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.0420e-06) with 0 suppressions
+ set +x
data\basic\designX2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 233 / 279 )
data\basic\designX3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX3.csm' -outLevel 0 -tess
--> 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=  6.5559e-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=  5.4600e-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

real	0m0.768s
user	0m0.046s
sys	0m0.031s
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 ->      0.172 sec

Sensitivity checks complete with        2 total errors (max tess err=  1.3686e-04) with 0 suppressions
+ set +x
data\basic\designX3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 234 / 279 )
data\basic\designX4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX4.csm' -outLevel 0 -tess
--> 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
Computing distances of perturbed points from perturbed configuration for ibody=13
    d(Face)/d(L) check complete with        0 total errors (errmax=  6.5559e-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=13
Computing distances of perturbed points from perturbed configuration for ibody=13
    d(Face)/d(R) check complete with        0 total errors (errmax=  9.5030e-08)
    d(Edge)/d(R) check complete with        0 total errors (errmax=  5.0219e-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=13
Computing distances of perturbed points from perturbed configuration for ibody=13
    d(Face)/d(xA) check complete with        0 total errors (errmax=  4.8237e-16)
    d(Edge)/d(xA) check complete with        0 total errors (errmax=  1.4013e-15)
    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=13
Computing distances of perturbed points from perturbed configuration for ibody=13
    d(Face)/d(yA) check complete with        0 total errors (errmax=  3.2067e-07)
    d(Edge)/d(yA) check complete with        0 total errors (errmax=  5.3437e-07)
    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=13
Computing distances of perturbed points from perturbed configuration for ibody=13
    d(Face)/d(xB) check complete with        0 total errors (errmax=  4.7609e-16)
    d(Edge)/d(xB) check complete with        0 total errors (errmax=  9.5954e-16)
    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=13
Computing distances of perturbed points from perturbed configuration for ibody=13
    d(Face)/d(yB) check complete with        0 total errors (errmax=  1.9676e-07)
    d(Edge)/d(yB) check complete with        0 total errors (errmax=  6.0420e-06)
    d(Node)/d(yB) check complete with        0 total errors (errmax=  8.8948e-07)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.226 sec

Sensitivity checks complete with        0 total errors (max tess err=  6.0420e-06) with 0 suppressions

real	0m1.837s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designX4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 235 / 279 )
data\basic\designX5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX5.csm' -outLevel 0 -tess
--> 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

real	0m0.450s
user	0m0.015s
sys	0m0.000s
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 ->      0.080 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.7386e-06) with 0 suppressions
+ set +x
data\basic\designX5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 236 / 279 )
data\basic\designX6.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX6.csm' -outLevel 0 -tess
--> 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=  3.6991e-07)
    d(Edge)/d(L) check complete with        0 total errors (errmax=  8.2889e-05)
    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=  1.0097e-06)
    d(Edge)/d(R) check complete with        0 total errors (errmax=  1.6474e-05)
    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=  3.2098e-08)
    d(Edge)/d(xA) check complete with        0 total errors (errmax=  4.8740e-06)
    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=  1.0331e-06)
    d(Edge)/d(yA) check complete with        0 total errors (errmax=  2.4368e-05)
    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=  5.6676e-07)
    d(Edge)/d(xB) check complete with        0 total errors (errmax=  7.8357e-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

real	0m2.177s
user	0m0.015s
sys	0m0.015s
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=  6.6411e-07)
    d(Edge)/d(xD) check complete with        0 total errors (errmax=  3.4822e-05)
    d(Node)/d(xD) check complete with        0 total errors (errmax=  1.9368e-06)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      1.073 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.2889e-05) with 0 suppressions
+ set +x
data\basic\designX6 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 237 / 279 )
data\basic\designX7.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX7.csm' -outLevel 0 -tess
--> 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=  5.3845e-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=  6.2432e-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 ->      1.363 sec

Sensitivity checks complete with        6 total errors (max tess err=  1.6980e-04) with 0 suppressions

real	0m2.077s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designX7 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 238 / 279 )
data\basic\designX8.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designX8.csm' -outLevel 0 -tess
--> 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=  3.6991e-07)
    d(Edge)/d(L) check complete with        0 total errors (errmax=  8.2889e-05)
    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=12
Computing distances of perturbed points from perturbed configuration for ibody=12
    d(Face)/d(R) check complete with        0 total errors (errmax=  1.0097e-06)
    d(Edge)/d(R) check complete with        0 total errors (errmax=  1.6474e-05)
    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=12
Computing distances of perturbed points from perturbed configuration for ibody=12
    d(Face)/d(xA) check complete with        0 total errors (errmax=  7.6338e-08)
    d(Edge)/d(xA) check complete with        0 total errors (errmax=  4.8740e-06)
    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=12
Computing distances of perturbed points from perturbed configuration for ibody=12
    d(Face)/d(yA) check complete with        0 total errors (errmax=  1.0640e-06)
    d(Edge)/d(yA) check complete with        0 total errors (errmax=  2.4368e-05)
    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=12
Computing distances of perturbed points from perturbed configuration for ibody=12
    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=  7.8357e-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

real	0m3.538s
user	0m0.000s
sys	0m0.015s
Computing analytic sensitivities (if possible) for ibody=12
Computing distances of perturbed points from perturbed configuration for ibody=12
    d(Face)/d(xD) check complete with        0 total errors (errmax=  6.6411e-07)
    d(Edge)/d(xD) check complete with        0 total errors (errmax=  3.4822e-05)
    d(Node)/d(xD) check complete with        0 total errors (errmax=  1.9368e-06)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      1.713 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.2889e-05) with 0 suppressions
+ set +x
data\basic\designX8 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 239 / 279 )
data\basic\designY0.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designY0.csm' -outLevel 0 -tess
--> 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 ->      0.041 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.0003e-09) with 0 suppressions

real	0m1.448s
user	0m0.015s
sys	0m0.000s
+ set +x
data\basic\designY0 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 240 / 279 )
data\basic\designY1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designY1.csm' -outLevel 0 -tess
--> 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=  3.2373e-10)
    d(Edge)/d(L) check complete with        0 total errors (errmax=  3.2373e-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=  5.6322e-16)
    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]=   0.00100000
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"
*********************************************************


real	0m0.952s
user	0m0.000s
sys	0m0.000s
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 ->      0.031 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.0978e-09) with 0 suppressions
+ set +x
data\basic\designY1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 241 / 279 )
data\basic\designY2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designY2.csm' -outLevel 0 -tess
--> 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

real	0m0.501s
user	0m0.015s
sys	0m0.015s
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=  7.9708e-16)
    d(Edge)/d(y7) check complete with        0 total errors (errmax=  8.1424e-16)
    d(Node)/d(y7) 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=  7.1248e-05) with 0 suppressions
+ set +x
data\basic\designY2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 242 / 279 )
data\basic\designY3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designY3.csm' -outLevel 0 -tess
--> 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=  7.9708e-16)
    d(Edge)/d(z7) check complete with        0 total errors (errmax=  8.1424e-16)
    d(Node)/d(z7) check complete with        0 total errors (errmax=  0.0000e+00)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.069 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.1248e-05) with 0 suppressions

real	0m0.455s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designY3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 243 / 279 )
data\basic\designY4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designY4.csm' -outLevel 0 -tess
--> 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

real	0m0.431s
user	0m0.015s
sys	0m0.015s
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=  7.9708e-16)
    d(Edge)/d(x7) check complete with        0 total errors (errmax=  8.1424e-16)
    d(Node)/d(x7) 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=  7.1248e-05) with 0 suppressions
+ set +x
data\basic\designY4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 244 / 279 )
data\basic\designYa.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYa.csm' -outLevel 0 -tess
--> 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

real	0m0.455s
user	0m0.000s
sys	0m0.016s
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 ->      0.050 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYa -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 245 / 279 )
data\basic\designYb.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYb.csm' -outLevel 0 -tess
--> 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

real	0m0.451s
user	0m0.000s
sys	0m0.015s
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 ->      0.041 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYb -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 246 / 279 )
data\basic\designYc.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYc.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.261s
user	0m0.000s
sys	0m0.031s
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 ->      0.014 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYc -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 247 / 279 )
data\basic\designYd.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYd.csm' -outLevel 0 -tess
--> 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 ->      0.010 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.248s
user	0m0.046s
sys	0m0.015s
+ set +x
data\basic\designYd -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 248 / 279 )
data\basic\designYe.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYe.csm' -outLevel 0 -tess
--> 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=  2.7517e-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=  6.4531e-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=  1.4939e-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 ->      0.039 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4939e-15) with 0 suppressions

real	0m0.377s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designYe -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 249 / 279 )
data\basic\designYf.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYf.csm' -outLevel 0 -tess
--> 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=  2.7532e-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=  6.4565e-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=  2.9632e-16)
    d(Edge)/d(y0) check complete with        0 total errors (errmax=  2.9790e-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 ->      0.031 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.376s
user	0m0.000s
sys	0m0.016s
+ set +x
data\basic\designYf -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 250 / 279 )
data\basic\designYg.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYg.csm' -outLevel 0 -tess
--> 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=  2.7065e-16)
    d(Edge)/d(y0) check complete with        0 total errors (errmax=  3.0337e-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 ->      0.010 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m0.362s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designYg -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 251 / 279 )
data\basic\designYh.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYh.csm' -outLevel 0 -tess
--> 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=  2.9632e-16)
    d(Edge)/d(y0) check complete with        0 total errors (errmax=  2.9790e-16)
    d(Node)/d(y0) check complete with        0 total errors (errmax=  2.2204e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "z0"
*********************************************************


real	0m0.244s
user	0m0.000s
sys	0m0.000s
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 ->      0.012 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYh -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 252 / 279 )
data\basic\designYi.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYi.csm' -outLevel 0 -tess
--> 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=  2.7517e-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=  6.4531e-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=  1.4939e-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"
*********************************************************


real	0m0.375s
user	0m0.015s
sys	0m0.015s
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 ->      0.035 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.4939e-15) with 0 suppressions
+ set +x
data\basic\designYi -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 253 / 279 )
data\basic\designYj.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYj.csm' -outLevel 0 -tess
--> 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=  3.4813e-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=  8.6321e-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=  2.3811e-16)
    d(Edge)/d(S) check complete with        0 total errors (errmax=  2.3057e-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 ->      0.025 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.4814e-16) with 0 suppressions

real	0m0.731s
user	0m0.016s
sys	0m0.031s
+ set +x
data\basic\designYj -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 254 / 279 )
data\basic\designYk.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYk.csm' -outLevel 0 -tess
--> 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

real	0m0.324s
user	0m0.015s
sys	0m0.031s
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 ->      0.012 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYk -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 255 / 279 )
data\basic\designYl.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYl.csm' -outLevel 0 -tess
--> 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

real	0m0.214s
user	0m0.000s
sys	0m0.031s
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 ->      0.006 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.6174e-16) with 0 suppressions
+ set +x
data\basic\designYl -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 256 / 279 )
data\basic\designYm.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYm.csm' -outLevel 0 -tess
--> 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

real	0m0.454s
user	0m0.031s
sys	0m0.015s
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 ->      0.045 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYm -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 257 / 279 )
data\basic\designYn.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYn.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.418s
user	0m0.015s
sys	0m0.000s
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 ->      0.032 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.8255e-16) with 0 suppressions
+ set +x
data\basic\designYn -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 258 / 279 )
data\basic\designYo.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYo.csm' -outLevel 0 -tess
--> 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

real	0m0.298s
user	0m0.000s
sys	0m0.077s
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 ->      0.021 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designYo -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 259 / 279 )
data\basic\designYp.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYp.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.286s
user	0m0.000s
sys	0m0.031s
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 ->      0.014 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.6174e-16) with 0 suppressions
+ set +x
data\basic\designYp -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 260 / 279 )
data\basic\designYq.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYq.csm' -outLevel 0 -tess
--> 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

real	0m0.489s
user	0m0.000s
sys	0m0.062s
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 ->      0.081 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.7272e-08) with 0 suppressions
+ set +x
data\basic\designYq -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 261 / 279 )
data\basic\designYr.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYr.csm' -outLevel 0 -tess
--> 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 ->      0.051 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.7272e-08) with 0 suppressions

real	0m0.482s
user	0m0.000s
sys	0m0.000s
+ set +x
data\basic\designYr -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 262 / 279 )
data\basic\designYs.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYs.csm' -outLevel 0 -tess
--> 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

real	0m0.308s
user	0m0.000s
sys	0m0.016s
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 ->      0.055 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.7272e-08) with 0 suppressions
+ set +x
data\basic\designYs -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 263 / 279 )
data\basic\designYt.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYt.csm' -outLevel 0 -tess
--> 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 ->      0.032 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.7272e-08) with 0 suppressions

real	0m0.261s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designYt -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 264 / 279 )
data\basic\designYu.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYu.csm' -outLevel 0 -tess
--> 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 ->      0.111 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.499s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designYu -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 265 / 279 )
data\basic\designYv.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYv.csm' -outLevel 0 -tess
--> 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 ->      0.145 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.586s
user	0m0.000s
sys	0m0.031s
+ set +x
data\basic\designYv -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 266 / 279 )
data\basic\designYw.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYw.csm' -outLevel 0 -tess
--> 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"
*********************************************************


real	0m0.349s
user	0m0.015s
sys	0m0.000s
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 ->      0.068 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions
+ set +x
data\basic\designYw -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 267 / 279 )
data\basic\designYx.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYx.csm' -outLevel 0 -tess
--> 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 ->      0.056 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.0000e-20) with 0 suppressions

real	0m0.433s
user	0m0.031s
sys	0m0.016s
+ set +x
data\basic\designYx -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 268 / 279 )
data\basic\designYy.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYy.csm' -outLevel 0 -tess
--> 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	0m0.194s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designYy -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 269 / 279 )
data\basic\designYz.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designYz.csm' -outLevel 0 -tess
--> 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

real	0m0.267s
user	0m0.000s
sys	0m0.031s
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 ->      0.001 sec

Sensitivity checks complete with        0 total errors (max tess err=  7.9135e-17) with 0 suppressions
+ set +x
data\basic\designYz -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 270 / 279 )
data\basic\designZ1.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ1.csm' -outLevel 0 -tess
--> 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

real	0m1.165s
user	0m0.000s
sys	0m0.000s
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 ->      0.069 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.1251e-16) with 0 suppressions
+ set +x
data\basic\designZ1 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 271 / 279 )
data\basic\designZ2.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ2.csm' -outLevel 0 -tess
--> 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

real	0m1.797s
user	0m0.015s
sys	0m0.015s
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 ->      0.088 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.1190e-16) with 0 suppressions
+ set +x
data\basic\designZ2 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 272 / 279 )
data\basic\designZ3.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ3.csm' -outLevel 0 -tess
--> 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=  4.7227e-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=  5.4896e-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

real	0m1.147s
user	0m0.000s
sys	0m0.047s
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 ->      0.053 sec

Sensitivity checks complete with        0 total errors (max tess err=  5.8271e-17) with 0 suppressions
+ set +x
data\basic\designZ3 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 273 / 279 )
data\basic\designZ4.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ4.csm' -outLevel 0 -tess
--> 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 ->      0.089 sec

Sensitivity checks complete with        0 total errors (max tess err=  2.6028e-06) with 0 suppressions

real	0m2.746s
user	0m0.031s
sys	0m0.015s
+ set +x
data\basic\designZ4 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 274 / 279 )
data\basic\designZ5.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ5.csm' -outLevel 0 -tess
--> 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=  5.9514e-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=  2.8281e-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=  2.2308e-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=  8.1947e-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=  2.2347e-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"
*********************************************************


real	0m1.112s
user	0m0.000s
sys	0m0.015s
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 ->      0.058 sec

Sensitivity checks complete with        0 total errors (max tess err=  1.6586e-08) with 0 suppressions
+ set +x
data\basic\designZ5 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 275 / 279 )
data\basic\designZ6.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ6.csm' -outLevel 0 -tess
--> 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=  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=  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=  5.8465e-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=  2.9075e-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 ->      0.094 sec

Sensitivity checks complete with        0 total errors (max tess err=  4.5419e-05) with 0 suppressions

real	0m1.926s
user	0m0.015s
sys	0m0.030s
+ set +x
data\basic\designZ6 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 276 / 279 )
data\basic\designZ7.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ7.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xloc[1,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[1,1]=   0.00100000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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]=   0.00200000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[3,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[3,1]=   0.00300000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[4,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[4,1]=   0.00400000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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=  3.0337e-16)
    d(Node)/d(xloc) check complete with        0 total errors (errmax=  4.4409e-16)

*********************************************************
Starting tessellation sensitivity wrt "xloc[5,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[5,1]=   0.00500000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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=  3.2432e-16)
    d(Node)/d(xloc) check complete with        0 total errors (errmax=  0.0000e+00)

*********************************************************
Starting tessellation sensitivity wrt "xloc[6,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[6,1]=   0.00600000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[7,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[7,1]=   0.00700000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[8,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[8,1]=   0.00800000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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=  8.8818e-16)
    d(Node)/d(xloc) check complete with        0 total errors (errmax=  8.8818e-16)

*********************************************************
Starting tessellation sensitivity wrt "xloc[9,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[9,1]=   0.00900000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[10,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[10,1]=   0.01000000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[11,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[11,1]=   0.01100000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[12,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[12,1]=   0.01200000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[13,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[13,1]=   0.01300000
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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[14,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[14,1]=   0.01400000

real	0m26.390s
user	0m0.000s
sys	0m0.015s
Computing analytic sensitivities (if possible) for ibody=43
Computing distances of perturbed points from perturbed configuration for ibody=43
    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)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.850 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions
+ set +x
data\basic\designZ7 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 277 / 279 )
data\basic\designZ8.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ8.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "xloc[1,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[1,1]=   0.00100000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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]=   0.00200000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[3,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[3,1]=   0.00300000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[4,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[4,1]=   0.00400000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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=  3.0337e-16)
    d(Node)/d(xloc) check complete with        0 total errors (errmax=  4.4409e-16)

*********************************************************
Starting tessellation sensitivity wrt "xloc[5,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[5,1]=   0.00500000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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=  3.2432e-16)
    d(Node)/d(xloc) check complete with        0 total errors (errmax=  0.0000e+00)

*********************************************************
Starting tessellation sensitivity wrt "xloc[6,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[6,1]=   0.00600000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[7,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[7,1]=   0.00700000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[8,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[8,1]=   0.00800000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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=  8.8818e-16)
    d(Node)/d(xloc) check complete with        0 total errors (errmax=  8.8818e-16)

*********************************************************
Starting tessellation sensitivity wrt "xloc[9,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[9,1]=   0.00900000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[10,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[10,1]=   0.01000000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[11,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[11,1]=   0.01100000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[12,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[12,1]=   0.01200000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[13,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[13,1]=   0.01300000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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[14,1]"
*********************************************************

Generating perturbed configuration with delta-xloc[14,1]=   0.01400000
Computing analytic sensitivities (if possible) for ibody=44
Computing distances of perturbed points from perturbed configuration for ibody=44
    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)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.888 sec

Sensitivity checks complete with        0 total errors (max tess err=  8.8819e-16) with 0 suppressions

real	0m21.941s
user	0m0.015s
sys	0m0.015s
+ set +x
data\basic\designZ8 -tess           passed (as expected)
--------------------------------------------------------------------------------------------------
( 278 / 279 )
data\basic\designZ9a.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ9a.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "right_side"
*********************************************************

Generating perturbed configuration with delta-right_side[1,1]=   0.00400000
Computing analytic sensitivities (if possible) for ibody=26
Computing distances of perturbed points from perturbed configuration for ibody=26
    d(Face)/d(right_side) check complete with        0 total errors (errmax=  2.7925e-16)
    d(Edge)/d(right_side) check complete with        0 total errors (errmax=  3.4072e-06)
    d(Node)/d(right_side) check complete with        0 total errors (errmax=  9.1551e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "top_side"
*********************************************************

Generating perturbed configuration with delta-top_side[1,1]=   0.00200000
Computing analytic sensitivities (if possible) for ibody=26
Computing distances of perturbed points from perturbed configuration for ibody=26
    d(Face)/d(top_side) check complete with        0 total errors (errmax=  3.2271e-16)
    d(Edge)/d(top_side) check complete with        0 total errors (errmax=  3.4870e-13)
    d(Node)/d(top_side) check complete with        0 total errors (errmax=  2.2204e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "left_side"
*********************************************************

Generating perturbed configuration with delta-left_side[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(left_side) check complete with        0 total errors (errmax=  3.1120e-16)
    d(Edge)/d(left_side) check complete with        0 total errors (errmax=  2.8419e-13)
    d(Node)/d(left_side) check complete with        0 total errors (errmax=  9.9301e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "btm_side"
*********************************************************

Generating perturbed configuration with delta-btm_side[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(btm_side) check complete with        0 total errors (errmax=  3.1879e-16)
    d(Edge)/d(btm_side) check complete with        0 total errors (errmax=  4.4334e-13)
    d(Node)/d(btm_side) check complete with        0 total errors (errmax=  4.9651e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "circ_r"
*********************************************************

Generating perturbed configuration with delta-circ_r[1,1]=   0.00100000

real	0m1.772s
user	0m0.015s
sys	0m0.031s
Computing analytic sensitivities (if possible) for ibody=26
Computing distances of perturbed points from perturbed configuration for ibody=26
    d(Face)/d(circ_r) check complete with        0 total errors (errmax=  3.1721e-16)
    d(Edge)/d(circ_r) check complete with        0 total errors (errmax=  2.9329e-10)
    d(Node)/d(circ_r) check complete with        0 total errors (errmax=  4.4409e-16)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.126 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.4072e-06) with 0 suppressions
+ set +x
data\basic\designZ9a -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
( 279 / 279 )
data\basic\designZ9b.csm;
+ 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\WIN64/bin/sensCSM' '..\..\OpenCSM\trunk\data\basic\designZ9b.csm' -outLevel 0 -tess
--> ocsmCheck() -> status=0 (success)

*********************************************************
Starting tessellation sensitivity wrt "right_side"
*********************************************************

Generating perturbed configuration with delta-right_side[1,1]=   0.00400000
Computing analytic sensitivities (if possible) for ibody=28
Computing distances of perturbed points from perturbed configuration for ibody=28
    d(Face)/d(right_side) check complete with        0 total errors (errmax=  2.7925e-16)
    d(Edge)/d(right_side) check complete with        0 total errors (errmax=  3.4072e-06)
    d(Node)/d(right_side) check complete with        0 total errors (errmax=  9.1551e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "top_side"
*********************************************************

Generating perturbed configuration with delta-top_side[1,1]=   0.00200000
Computing analytic sensitivities (if possible) for ibody=28
Computing distances of perturbed points from perturbed configuration for ibody=28
    d(Face)/d(top_side) check complete with        0 total errors (errmax=  3.2271e-16)
    d(Edge)/d(top_side) check complete with        0 total errors (errmax=  3.4870e-13)
    d(Node)/d(top_side) check complete with        0 total errors (errmax=  2.2204e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "left_side"
*********************************************************

Generating perturbed configuration with delta-left_side[1,1]=   0.00100000
Computing analytic sensitivities (if possible) for ibody=28
Computing distances of perturbed points from perturbed configuration for ibody=28
    d(Face)/d(left_side) check complete with        0 total errors (errmax=  3.1120e-16)
    d(Edge)/d(left_side) check complete with        0 total errors (errmax=  2.8419e-13)
    d(Node)/d(left_side) check complete with        0 total errors (errmax=  9.9301e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "btm_side"
*********************************************************

Generating perturbed configuration with delta-btm_side[1,1]=   0.00100000
Computing analytic sensitivities (if possible) for ibody=28
Computing distances of perturbed points from perturbed configuration for ibody=28
    d(Face)/d(btm_side) check complete with        0 total errors (errmax=  3.1879e-16)
    d(Edge)/d(btm_side) check complete with        0 total errors (errmax=  4.4334e-13)
    d(Node)/d(btm_side) check complete with        0 total errors (errmax=  4.9651e-16)
 

*********************************************************
Starting tessellation sensitivity wrt "circ_r"
*********************************************************

Generating perturbed configuration with delta-circ_r[1,1]=   0.00100000
Computing analytic sensitivities (if possible) for ibody=28
Computing distances of perturbed points from perturbed configuration for ibody=28
    d(Face)/d(circ_r) check complete with        0 total errors (errmax=  3.1721e-16)
    d(Edge)/d(circ_r) check complete with        0 total errors (errmax=  2.9329e-10)
    d(Node)/d(circ_r) check complete with        0 total errors (errmax=  4.4409e-16)
 
==> sensCSM completed successfully

Total CPU time in ocsmGetTessVel ->      0.120 sec

Sensitivity checks complete with        0 total errors (max tess err=  3.4072e-06) with 0 suppressions

real	0m2.436s
user	0m0.000s
sys	0m0.015s
+ set +x
data\basic\designZ9b -tess          passed (as expected)
--------------------------------------------------------------------------------------------------
================================         Found errors             ================================
==================================================================================================

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\test>set /a "err=0+0+0+0" 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\ESP\test>exit /b 0 

(venv) C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019\OpenCSM\trunk\src>exit 0 
[GNU C Compiler (gcc)] Parsing console log (workspace: 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019')
[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: 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019')
[Clang] -> found 0 issues (skipped 0 duplicates)
[Clang] Parsing console log (workspace: 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019')
[Clang] -> found 0 issues (skipped 0 duplicates)
[Clang] Successfully parsed console log
[Clang] -> found 0 issues (skipped 0 duplicates)
[Clang] Parsing console log (workspace: 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019')
[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: 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019')
[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: 'C:\Users\jenkins\workspace\ESP_RegOcsm\7.8\sensCSM\tess\WIN64.2019')
[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_RegOcsm/CASREV=7.8,ESPTEST=sensCSM/tess,ESP_ARCH=WIN64.2019,buildnode=windows10x64 #344'.
[Checks API] No suitable checks publisher found.
[PostBuildScript] - [INFO] Executing post build scripts.
[PostBuildScript] - [INFO] build step #0 should only be executed on MATRIX
[WS-CLEANUP] Deleting project workspace...
[WS-CLEANUP] done
Finished: SUCCESS