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IDProjectCategoryView StatusLast Update
0003867OpenFOAMBugpublic2022-07-26 10:42
Reportercgoessni Assigned Tohenry  
PrioritynormalSeveritycrashReproducibilityalways
Status closedResolutionsuspended 
Platformamd64OSCentOSOS Version7
Product Versiondev 
Summary0003867: reactingFoam and meshToMesh topoChanger: crash after mapping
DescriptionWhen I try the new meshToMesh topoChanger, I see a crash after mapping in reactingFoam inside fluidThermo:

https://github.com/OpenFOAM/OpenFOAM-dev/blob/master/src/thermophysicalModels/basic/fluidThermo/fluidThermo.C#L75

    return mu()/rho();

It seems like rho() is zero and not updated after mesh-to-mesh mapping?

Mesh-to-mesh mapping with moveMesh works fine for this case.
TagsNo tags attached.

Activities

cgoessni

2022-07-25 14:46

reporter  

log.txt (50,319 bytes)   
Parallel processing using SYSTEMOPENMPI with 24 processors
Executing: /opt/openmpi/bin/mpirun -np 24 -x FOAM_SETTINGS /opt/OpenFOAM/OpenFOAM-git/bin/foamExec -prefix /opt/OpenFOAM reactingFoam -parallel | tee  log
--------------------------------------------------------------------------
WARNING: There are more than one active ports on host 'fvkmb176', but the
default subnet GID prefix was detected on more than one of these
ports.  If these ports are connected to different physical IB
networks, this configuration will fail in Open MPI.  This version of
Open MPI requires that every physically separate IB subnet that is
used between connected MPI processes must have different subnet ID
values.

Please see this FAQ entry for more details:

  http://www.open-mpi.org/faq/?category=openfabrics#ofa-default-subnet-gid

NOTE: You can turn off this warning by setting the MCA parameter
      btl_openib_warn_default_gid_prefix to 0.
--------------------------------------------------------------------------
/*---------------------------------------------------------------------------*\
  =========                 |
  \\      /  F ield         | OpenFOAM: The Open Source CFD Toolbox
   \\    /   O peration     | Website:  https://openfoam.org
    \\  /    A nd           | Version:  git
     \\/     M anipulation  |
\*---------------------------------------------------------------------------*/
Build  : git-dafe3fa00455
Exec   : reactingFoam -parallel
Date   : Jul 25 2022
Time   : 15:42:37
Host   : "fvkmb176"
PID    : 125567
I/O    : uncollated
Case   : /home/goessnitzer/OpenFOAM/goessnitzer-git/run/TCC_III/test
nProcs : 24
Slaves : 
23
(
"fvkmb176.125571"
"fvkmb176.125576"
"fvkmb176.125581"
"fvkmb176.125589"
"fvkmb176.125595"
"fvkmb176.125604"
"fvkmb176.125617"
"fvkmb176.125629"
"fvkmb176.125641"
"fvkmb176.125654"
"fvkmb176.125668"
"fvkmb176.125684"
"fvkmb176.125700"
"fvkmb176.125725"
"fvkmb176.125750"
"fvkmb176.125770"
"fvkmb176.125795"
"fvkmb176.125824"
"fvkmb176.125853"
"fvkmb176.125882"
"fvkmb176.125914"
"fvkmb176.125950"
"fvkmb176.125997"
)

Pstream initialised with:
    floatTransfer      : 0
    nProcsSimpleSum    : 0
    commsType          : nonBlocking
    polling iterations : 0
sigFpe : Enabling floating point exception trapping (FOAM_SIGFPE).
fileModificationChecking : Monitoring run-time modified files using timeStampMaster (fileModificationSkew 10)
allowSystemOperations : Allowing user-supplied system call operations

// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
Create time

Selecting userTime engine
Create mesh for time = 150

Selecting fvMeshTopoChanger meshToMesh
Selecting fvMeshMover engine
Selecting pistonType crankshaftPiston

PIMPLE: No convergence criteria found


PIMPLE: Operating solver in transient mode with 1 outer corrector
PIMPLE: Operating solver in PISO mode


Reading thermophysical properties

Selecting thermodynamics package 
{
    type            hePsiThermo;
    mixture         multiComponentMixture;
    transport       sutherland;
    thermo          janaf;
    energy          sensibleEnthalpy;
    equationOfState perfectGas;
    specie          specie;
}

Reading field U

Reading/calculating face flux field phi

Creating turbulence model.

Selecting turbulence model type laminar
Selecting laminar stress model Stokes
Creating thermophysical transport model

Selecting thermophysical transport type laminar
Selecting default laminar thermophysical transport model unityLewisFourier
Creating reaction model

Selecting combustion model none
Creating field dpdt

Creating field kinetic energy K

No MRF models present

No fvModels present
No fvConstraints present
Constructing face momentum rhoUf
Courant Number mean: 0 max: 0

Starting time loop

Courant Number mean: 0 max: 0
Time = 151CAD

Valve EV1 is open, current position 0.0017259, moving by 0.0001047
Valve EV2 is open, current position 0.0017259, moving by 0.0001047
Piston current position 0.0815353 , moving by 0.00031045
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.87575e-07, No Iterations 130
GAMG:  Solving for pcorr, Initial residual = 0.504016, Final residual = 9.31032e-07, No Iterations 69
Mesh Courant Number mean: 0.077882 max: 6.3644
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 1, Final residual = 7.64908e-07, No Iterations 8
DILUPBiCGStab:  Solving for Uy, Initial residual = 1, Final residual = 6.09426e-07, No Iterations 8
DILUPBiCGStab:  Solving for Uz, Initial residual = 1, Final residual = 8.82799e-07, No Iterations 7
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000125879, Final residual = 9.88496e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.982776, Final residual = 1.08833e-07, No Iterations 9
min/max(T) = 500, 500
DILUPBiCGStab:  Solving for p, Initial residual = 1, Final residual = 9.99013e-07, No Iterations 224
DILUPBiCGStab:  Solving for p, Initial residual = 0.22852, Final residual = 5.11232e-07, No Iterations 167
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 6.42176e-09, global = -3.09915e-09, cumulative = -3.09915e-09
DILUPBiCGStab:  Solving for p, Initial residual = 0.0320049, Final residual = 8.95293e-07, No Iterations 116
DILUPBiCGStab:  Solving for p, Initial residual = 0.00608473, Final residual = 9.99603e-07, No Iterations 65
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.4979e-07, global = -8.97608e-09, cumulative = -1.20752e-08
ExecutionTime = 3.84 s  ClockTime = 4 s

Courant Number mean: 0.0247568 max: 18.1624
Time = 152CAD

Valve EV1 is open, current position 0.0018306, moving by 0.0001047
Valve EV2 is open, current position 0.0018306, moving by 0.0001047
Piston current position 0.0818356 , moving by 0.000300284
[fvkmb176:125558] 23 more processes have sent help message help-mpi-btl-openib.txt / default subnet prefix
[fvkmb176:125558] Set MCA parameter "orte_base_help_aggregate" to 0 to see all help / error messages
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.22714e-07, No Iterations 128
GAMG:  Solving for pcorr, Initial residual = 0.547113, Final residual = 9.66504e-07, No Iterations 66
Mesh Courant Number mean: 0.0752828 max: 6.69354
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.35476, Final residual = 5.63004e-07, No Iterations 3
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.327947, Final residual = 3.05132e-07, No Iterations 4
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.390884, Final residual = 8.89223e-07, No Iterations 2
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000116659, Final residual = 2.28946e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 1, Final residual = 2.51465e-07, No Iterations 3
min/max(T) = 498.971, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.577135, Final residual = 9.47626e-07, No Iterations 192
DILUPBiCGStab:  Solving for p, Initial residual = 0.176866, Final residual = 9.15875e-07, No Iterations 155
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.12273e-07, global = 5.50074e-09, cumulative = -6.57449e-09
DILUPBiCGStab:  Solving for p, Initial residual = 0.0272709, Final residual = 9.70323e-07, No Iterations 134
DILUPBiCGStab:  Solving for p, Initial residual = 0.00602504, Final residual = 7.55037e-07, No Iterations 84
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 7.69473e-08, global = 8.95246e-09, cumulative = 2.37797e-09
ExecutionTime = 7.66 s  ClockTime = 8 s

Courant Number mean: 0.0345192 max: 3.74116
Time = 153CAD

Valve EV1 is open, current position 0.00193955, moving by 0.00010895
Valve EV2 is open, current position 0.00193955, moving by 0.00010895
Piston current position 0.0821257 , moving by 0.000290078
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.21611e-07, No Iterations 135
GAMG:  Solving for pcorr, Initial residual = 0.56361, Final residual = 9.74265e-07, No Iterations 67
Mesh Courant Number mean: 0.0728945 max: 7.33474
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.262804, Final residual = 7.23319e-07, No Iterations 2
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.255059, Final residual = 2.99189e-07, No Iterations 3
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.241136, Final residual = 1.51963e-07, No Iterations 2
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000116785, Final residual = 2.35111e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.567768, Final residual = 2.2863e-07, No Iterations 2
min/max(T) = 498.736, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.316679, Final residual = 9.69902e-07, No Iterations 201
DILUPBiCGStab:  Solving for p, Initial residual = 0.158524, Final residual = 8.56345e-07, No Iterations 140
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.10194e-07, global = 7.37912e-10, cumulative = 3.11588e-09
DILUPBiCGStab:  Solving for p, Initial residual = 0.017438, Final residual = 9.77082e-07, No Iterations 123
DILUPBiCGStab:  Solving for p, Initial residual = 0.00277485, Final residual = 7.86548e-07, No Iterations 50
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 9.88014e-08, global = -2.98964e-09, cumulative = 1.26239e-10
ExecutionTime = 11.09 s  ClockTime = 11 s

Courant Number mean: 0.0622004 max: 15.9516
Time = 154CAD

Valve EV1 is open, current position 0.0020485, moving by 0.00010895
Valve EV2 is open, current position 0.0020485, moving by 0.00010895
Piston current position 0.0824055 , moving by 0.000279835
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.23901e-07, No Iterations 132
GAMG:  Solving for pcorr, Initial residual = 0.563203, Final residual = 9.26284e-07, No Iterations 65
Mesh Courant Number mean: 0.0703187 max: 7.71813
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.205784, Final residual = 6.01235e-07, No Iterations 5
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.225864, Final residual = 6.66064e-07, No Iterations 5
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.133199, Final residual = 8.74645e-07, No Iterations 4
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000120678, Final residual = 5.70478e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.447548, Final residual = 9.33903e-07, No Iterations 4
min/max(T) = 498.442, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.258556, Final residual = 9.96826e-07, No Iterations 189
DILUPBiCGStab:  Solving for p, Initial residual = 0.0694081, Final residual = 8.87456e-07, No Iterations 160
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.03226e-07, global = 1.15287e-08, cumulative = 1.1655e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.0173658, Final residual = 9.91565e-07, No Iterations 126
DILUPBiCGStab:  Solving for p, Initial residual = 0.00279121, Final residual = 9.41142e-07, No Iterations 70
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.15135e-07, global = 6.94367e-09, cumulative = 1.85986e-08
ExecutionTime = 14.19 s  ClockTime = 14 s

Courant Number mean: 0.084591 max: 28.3485
Time = 155CAD

Valve EV1 is open, current position 0.00216105, moving by 0.00011255
Valve EV2 is open, current position 0.00216105, moving by 0.00011255
Piston current position 0.0826751 , moving by 0.000269555
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.74654e-07, No Iterations 131
GAMG:  Solving for pcorr, Initial residual = 0.577303, Final residual = 9.4966e-07, No Iterations 55
Mesh Courant Number mean: 0.0679226 max: 8.39875
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.155694, Final residual = 8.15031e-07, No Iterations 6
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.169183, Final residual = 1.70864e-07, No Iterations 8
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.120198, Final residual = 5.80585e-07, No Iterations 6
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000125424, Final residual = 9.81636e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.418878, Final residual = 1.59606e-07, No Iterations 7
min/max(T) = 497.922, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.25236, Final residual = 9.52483e-07, No Iterations 193
DILUPBiCGStab:  Solving for p, Initial residual = 0.0703003, Final residual = 5.42253e-07, No Iterations 133
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.1383e-07, global = 6.1717e-10, cumulative = 1.92158e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.0207017, Final residual = 6.06446e-07, No Iterations 130
DILUPBiCGStab:  Solving for p, Initial residual = 0.00435, Final residual = 9.76867e-07, No Iterations 88
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.52232e-07, global = 4.77017e-09, cumulative = 2.3986e-08
ExecutionTime = 17.75 s  ClockTime = 18 s

Courant Number mean: 0.105625 max: 33.2097
Time = 156CAD

Valve EV1 is open, current position 0.0022736, moving by 0.00011255
Valve EV2 is open, current position 0.0022736, moving by 0.00011255
Piston current position 0.0829343 , moving by 0.000259242
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.34468e-07, No Iterations 124
GAMG:  Solving for pcorr, Initial residual = 0.577722, Final residual = 9.48979e-07, No Iterations 51
Mesh Courant Number mean: 0.0653709 max: 8.84198
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.107306, Final residual = 9.21963e-07, No Iterations 6
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.115589, Final residual = 2.23747e-07, No Iterations 8
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.0581544, Final residual = 9.96502e-07, No Iterations 6
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000129687, Final residual = 2.03328e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.420136, Final residual = 6.56218e-07, No Iterations 7
min/max(T) = 497.543, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.26234, Final residual = 9.08992e-07, No Iterations 194
DILUPBiCGStab:  Solving for p, Initial residual = 0.107116, Final residual = 8.96332e-07, No Iterations 145
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 3.19627e-07, global = 4.31763e-09, cumulative = 2.83036e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.0267298, Final residual = 9.42483e-07, No Iterations 109
DILUPBiCGStab:  Solving for p, Initial residual = 0.00509923, Final residual = 8.48841e-07, No Iterations 81
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.48699e-07, global = 6.72968e-09, cumulative = 3.50333e-08
ExecutionTime = 21.2 s  ClockTime = 21 s

Courant Number mean: 0.122861 max: 33.9333
Time = 157CAD

Valve EV1 is open, current position 0.00238905, moving by 0.00011545
Valve EV2 is open, current position 0.00238905, moving by 0.00011545
Piston current position 0.0831832 , moving by 0.000248895
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.20655e-07, No Iterations 125
GAMG:  Solving for pcorr, Initial residual = 0.590068, Final residual = 9.85296e-07, No Iterations 60
Mesh Courant Number mean: 0.0629671 max: 9.55675
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.062762, Final residual = 5.91861e-07, No Iterations 6
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.0759166, Final residual = 5.5237e-07, No Iterations 7
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.0270469, Final residual = 6.55596e-07, No Iterations 6
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000130932, Final residual = 2.50863e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.425826, Final residual = 6.29609e-07, No Iterations 7
min/max(T) = 497.221, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.280511, Final residual = 9.61546e-07, No Iterations 187
DILUPBiCGStab:  Solving for p, Initial residual = 0.132095, Final residual = 8.07152e-07, No Iterations 150
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.80236e-07, global = 6.10866e-09, cumulative = 4.1142e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.0370523, Final residual = 9.5027e-07, No Iterations 117
DILUPBiCGStab:  Solving for p, Initial residual = 0.00678043, Final residual = 6.97688e-07, No Iterations 86
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.0221e-07, global = 2.93484e-09, cumulative = 4.40768e-08
ExecutionTime = 24.61 s  ClockTime = 25 s

Courant Number mean: 0.130477 max: 33.8414
Time = 158CAD

Valve EV1 is open, current position 0.0025045, moving by 0.00011545
Valve EV2 is open, current position 0.0025045, moving by 0.00011545
Piston current position 0.0834217 , moving by 0.000238518
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.73654e-07, No Iterations 123
GAMG:  Solving for pcorr, Initial residual = 0.588148, Final residual = 9.77363e-07, No Iterations 59
Mesh Courant Number mean: 0.060439 max: 10.066
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.0233142, Final residual = 1.1269e-07, No Iterations 7
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.0415613, Final residual = 9.65533e-07, No Iterations 7
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.0168873, Final residual = 7.42184e-07, No Iterations 6
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000132195, Final residual = 2.7211e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.411936, Final residual = 8.39754e-07, No Iterations 7
min/max(T) = 496.886, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.320058, Final residual = 8.16346e-07, No Iterations 191
DILUPBiCGStab:  Solving for p, Initial residual = 0.162479, Final residual = 8.04426e-07, No Iterations 148
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.10475e-07, global = 1.89104e-09, cumulative = 4.59678e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.0458577, Final residual = 8.21906e-07, No Iterations 119
DILUPBiCGStab:  Solving for p, Initial residual = 0.00802898, Final residual = 9.40035e-07, No Iterations 88
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.79314e-07, global = -1.42093e-09, cumulative = 4.45469e-08
ExecutionTime = 27.67 s  ClockTime = 28 s

Courant Number mean: 0.126106 max: 31.2143
Time = 159CAD

Valve EV1 is open, current position 0.0026221, moving by 0.0001176
Valve EV2 is open, current position 0.0026221, moving by 0.0001176
Piston current position 0.0836499 , moving by 0.000228112
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.41034e-07, No Iterations 125
GAMG:  Solving for pcorr, Initial residual = 0.59655, Final residual = 9.96013e-07, No Iterations 66
Mesh Courant Number mean: 0.058022 max: 10.8074
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.0195525, Final residual = 5.69585e-07, No Iterations 5
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.0409819, Final residual = 5.86435e-07, No Iterations 6
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.0182718, Final residual = 6.82204e-07, No Iterations 5
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000131972, Final residual = 2.45268e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.390462, Final residual = 5.80962e-07, No Iterations 7
min/max(T) = 496.351, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.350188, Final residual = 8.78027e-07, No Iterations 194
DILUPBiCGStab:  Solving for p, Initial residual = 0.125478, Final residual = 9.45473e-07, No Iterations 129
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 1.76366e-07, global = -1.65814e-10, cumulative = 4.43811e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.035117, Final residual = 9.77e-07, No Iterations 147
DILUPBiCGStab:  Solving for p, Initial residual = 0.00706839, Final residual = 9.69137e-07, No Iterations 84
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.3169e-07, global = -7.9649e-09, cumulative = 3.64162e-08
ExecutionTime = 31.03 s  ClockTime = 31 s

Courant Number mean: 0.110992 max: 25.6978
Time = 160CAD

Valve EV1 is open, current position 0.0027397, moving by 0.0001176
Valve EV2 is open, current position 0.0027397, moving by 0.0001176
Piston current position 0.0838675 , moving by 0.000217678
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.14752e-07, No Iterations 122
GAMG:  Solving for pcorr, Initial residual = 0.592402, Final residual = 9.98034e-07, No Iterations 63
Mesh Courant Number mean: 0.0555127 max: 11.3893
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
DILUPBiCGStab:  Solving for Ux, Initial residual = 0.0623511, Final residual = 2.20523e-07, No Iterations 6
DILUPBiCGStab:  Solving for Uy, Initial residual = 0.093083, Final residual = 9.24087e-07, No Iterations 6
DILUPBiCGStab:  Solving for Uz, Initial residual = 0.051311, Final residual = 5.54213e-07, No Iterations 6
DILUPBiCGStab:  Solving for O2, Initial residual = 0.000128516, Final residual = 1.94413e-07, No Iterations 1
DILUPBiCGStab:  Solving for h, Initial residual = 0.341051, Final residual = 3.92433e-07, No Iterations 7
min/max(T) = 495.532, 500
DILUPBiCGStab:  Solving for p, Initial residual = 0.303094, Final residual = 7.70454e-07, No Iterations 204
DILUPBiCGStab:  Solving for p, Initial residual = 0.0822551, Final residual = 9.17666e-07, No Iterations 128
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.03112e-07, global = 7.77163e-09, cumulative = 4.41878e-08
DILUPBiCGStab:  Solving for p, Initial residual = 0.0297796, Final residual = 8.83617e-07, No Iterations 126
DILUPBiCGStab:  Solving for p, Initial residual = 0.0067131, Final residual = 7.8295e-07, No Iterations 101
diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
time step continuity errors : sum local = 2.47894e-07, global = -6.5425e-09, cumulative = 3.76453e-08
ExecutionTime = 34.36 s  ClockTime = 34 s

Courant Number mean: 0.0891108 max: 17.6474
Mapping to mesh meshToMesh_160
Creating mesh-to-mesh addressing for region0 and meshToMesh_160 regions using cellVolumeWeight
    Overlap volume: 0.000782447
Creating AMI between source patch ep and target patch ep using faceAreaWeightAMI
    AMI: Creating addressing and weights between 24875 source faces and 24875 target faces
    AMI: Patch source sum(weights) min/max/average = 0.997412, 1.01966, 1
    AMI: Patch target sum(weights) min/max/average = 0.987378, 1.01589, 0.999999
Creating AMI between source patch ev_angle_1 and target patch ev_angle_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 1983 source faces and 1790 target faces
    AMI: Patch source sum(weights) min/max/average = 0.907994, 1.00298, 0.999913
    AMI: Patch target sum(weights) min/max/average = 0.630608, 1.0032, 0.996262
Creating AMI between source patch ev_angle_2 and target patch ev_angle_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 1984 source faces and 1788 target faces
    AMI: Patch source sum(weights) min/max/average = 0.907993, 1.00309, 0.999911
    AMI: Patch target sum(weights) min/max/average = 0.630605, 1.00311, 0.996257
Creating AMI between source patch ev_bottom_1 and target patch ev_bottom_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 4300 source faces and 4012 target faces
    AMI: Patch source sum(weights) min/max/average = 0.937009, 1.00011, 0.999965
    AMI: Patch target sum(weights) min/max/average = 0.992906, 1.12066, 1.00059
Creating AMI between source patch ev_bottom_2 and target patch ev_bottom_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 4297 source faces and 4012 target faces
    AMI: Patch source sum(weights) min/max/average = 0.937009, 1.00011, 0.999965
    AMI: Patch target sum(weights) min/max/average = 0.992906, 1.12066, 1.00059
Creating AMI between source patch ev_cylinder_1 and target patch ev_cylinder_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 694 source faces and 452 target faces
    AMI: Patch source sum(weights) min/max/average = 0.636385, 1.00096, 0.991961
    AMI: Patch target sum(weights) min/max/average = 0.903826, 1.00324, 0.997586
Creating AMI between source patch ev_cylinder_2 and target patch ev_cylinder_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 694 source faces and 452 target faces
    AMI: Patch source sum(weights) min/max/average = 0.734217, 1.00102, 0.992009
    AMI: Patch target sum(weights) min/max/average = 0.903, 1.00297, 0.997655
Creating AMI between source patch ev_head_seat_1 and target patch ev_head_seat_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 4989 source faces and 4989 target faces
    AMI: Patch source sum(weights) min/max/average = 0.999758, 1, 1
    AMI: Patch target sum(weights) min/max/average = 0.999998, 1, 1
Creating AMI between source patch ev_head_seat_2 and target patch ev_head_seat_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 4990 source faces and 4990 target faces
    AMI: Patch source sum(weights) min/max/average = 0.98864, 1, 0.999995
    AMI: Patch target sum(weights) min/max/average = 0.999597, 1.00005, 1
Creating AMI between source patch ev_seat_1 and target patch ev_seat_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 4368 source faces and 4504 target faces
    AMI: Patch source sum(weights) min/max/average = 0.636945, 1.00065, 0.99934
    AMI: Patch target sum(weights) min/max/average = 0.783814, 1.00097, 0.998895
Creating AMI between source patch ev_seat_2 and target patch ev_seat_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 4368 source faces and 4503 target faces
    AMI: Patch source sum(weights) min/max/average = 0.636945, 1.00067, 0.999333
    AMI: Patch target sum(weights) min/max/average = 0.783635, 1.00106, 0.998888
Creating AMI between source patch ev_stem_1 and target patch ev_stem_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 882 source faces and 900 target faces
    AMI: Patch source sum(weights) min/max/average = 0.881071, 1.00314, 0.997441
    AMI: Patch target sum(weights) min/max/average = 0.998809, 1.01786, 1.00005
Creating AMI between source patch ev_stem_2 and target patch ev_stem_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 880 source faces and 900 target faces
    AMI: Patch source sum(weights) min/max/average = 0.8811, 1.00006, 0.997432
    AMI: Patch target sum(weights) min/max/average = 0.998812, 1.00077, 1.00001
Creating AMI between source patch head and target patch head using faceAreaWeightAMI
    AMI: Creating addressing and weights between 17621 source faces and 17625 target faces
    AMI: Patch source sum(weights) min/max/average = 0.999782, 1.00074, 1
    AMI: Patch target sum(weights) min/max/average = 0.993646, 1.00025, 0.999999
Creating AMI between source patch cylinderHead and target patch cylinderHead using faceAreaWeightAMI
    AMI: Creating addressing and weights between 3405 source faces and 3417 target faces
    AMI: Patch source sum(weights) min/max/average = 0.841826, 1.00171, 0.980707
    AMI: Patch target sum(weights) min/max/average = 0.997839, 1.00145, 1
Creating AMI between source patch iv_bottom_1 and target patch iv_bottom_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 3677 source faces and 3677 target faces
    AMI: Patch source sum(weights) min/max/average = 1, 1, 1
    AMI: Patch target sum(weights) min/max/average = 0.999985, 1, 1
Creating AMI between source patch iv_bottom_2 and target patch iv_bottom_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 3677 source faces and 3677 target faces
    AMI: Patch source sum(weights) min/max/average = 1, 1, 1
    AMI: Patch target sum(weights) min/max/average = 0.999999, 1, 1
Creating AMI between source patch iv_cut_1 and target patch iv_cut_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 1424 source faces and 1424 target faces
    AMI: Patch source sum(weights) min/max/average = 0.999997, 1, 1
    AMI: Patch target sum(weights) min/max/average = 0.999909, 1, 1
Creating AMI between source patch iv_cut_2 and target patch iv_cut_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 1424 source faces and 1424 target faces
    AMI: Patch source sum(weights) min/max/average = 0.999995, 1, 1
    AMI: Patch target sum(weights) min/max/average = 0.999898, 1, 1
Creating AMI between source patch iv_cylinder_1 and target patch iv_cylinder_1 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 367 source faces and 367 target faces
    AMI: Patch source sum(weights) min/max/average = 0.999999, 1, 1
    AMI: Patch target sum(weights) min/max/average = 1, 1, 1
Creating AMI between source patch iv_cylinder_2 and target patch iv_cylinder_2 using faceAreaWeightAMI
    AMI: Creating addressing and weights between 367 source faces and 367 target faces
    AMI: Patch source sum(weights) min/max/average = 1, 1, 1
    AMI: Patch target sum(weights) min/max/average = 0.999999, 1, 1
Creating AMI between source patch liner and target patch liner using faceAreaWeightAMI
    AMI: Creating addressing and weights between 21840 source faces and 22580 target faces
    AMI: Patch source sum(weights) min/max/average = 0.965594, 1.00002, 0.99998
    AMI: Patch target sum(weights) min/max/average = 0.835439, 1.00009, 0.998409
Creating AMI between source patch outlet and target patch outlet using faceAreaWeightAMI
    AMI: Creating addressing and weights between 484 source faces and 484 target faces
    AMI: Patch source sum(weights) min/max/average = 1, 1, 1
    AMI: Patch target sum(weights) min/max/average = 1, 1, 1
Creating AMI between source patch piston and target patch piston using faceAreaWeightAMI
    AMI: Creating addressing and weights between 6648 source faces and 6660 target faces
    AMI: Patch source sum(weights) min/max/average = 0.944516, 1.00004, 0.999958
    AMI: Patch target sum(weights) min/max/average = 0.997915, 1, 0.999991
Creating AMI between source patch spark_plug and target patch spark_plug using faceAreaWeightAMI
    AMI: Creating addressing and weights between 8976 source faces and 8976 target faces
    AMI: Patch source sum(weights) min/max/average = 0.999995, 1.00031, 1
    AMI: Patch target sum(weights) min/max/average = 0.997029, 1.00032, 1
Inside mapMesh
Time = 161CAD

Valve EV1 is open, current position 0.00285885, moving by 0.00011915
Valve EV2 is open, current position 0.00285885, moving by 0.00011915
Piston current position 0.0840747 , moving by 0.000207218
GAMG:  Solving for pcorr, Initial residual = 1, Final residual = 9.38508e-07, No Iterations 104
GAMG:  Solving for pcorr, Initial residual = 0.103095, Final residual = 9.74869e-07, No Iterations 54
Mesh Courant Number mean: 0.0543702 max: 8.34572
--------------------------------------------------------------------------
A process has executed an operation involving a call to the
"fork()" system call to create a child process.  Open MPI is currently
operating in a condition that could result in memory corruption or
other system errors; your job may hang, crash, or produce silent
data corruption.  The use of fork() (or system() or other calls that
create child processes) is strongly discouraged.

The process that invoked fork was:

  Local host:          [[14124,1],9] (PID 125641)

If you are *absolutely sure* that your application will successfully
and correctly survive a call to fork(), you may disable this warning
by setting the mpi_warn_on_fork MCA parameter to 0.
--------------------------------------------------------------------------
[9] #0  Foam::error::printStack(Foam::Ostream&)[15] #0  Foam::error::printStack(Foam::Ostream&)[5] #0  Foam::error::printStack(Foam::Ostream&)[12] #0  Foam::error::printStack(Foam::Ostream&)[13] #0  Foam::error::printStack(Foam::Ostream&)[20] #0  Foam::error::printStack(Foam::Ostream&)diagonal:  Solving for rho, Initial residual = 0, Final residual = 0, No Iterations 0
 at ??:?
 at ??:?
 at ??:?
 at ??:?
[15] #1  [5] #1  Foam::sigFpe::sigHandler(int)[9] #1  [13] #1  Foam::sigFpe::sigHandler(int)Foam::sigFpe::sigHandler(int)Foam::sigFpe::sigHandler(int) at ??:?
 at ??:?
[12] #1  Foam::sigFpe::sigHandler(int)[20] #1  Foam::sigFpe::sigHandler(int) at ??:?
[15] #2  ? at ??:?
[13] #2  ? at ??:?
[9] #2  ? at ??:?
[5] #2  ? at ??:?
[12] #2  ? at ??:?
[20] #2  ? in "/lib64/libc.so.6"
[13] #3  Foam::divide(Foam::Field<double>&, Foam::UList<double> const&, Foam::UList<double> const&) in "/lib64/libc.so.6"
[15] #3  Foam::divide(Foam::Field<double>&, Foam::UList<double> const&, Foam::UList<double> const&) in "/lib64/libc.so.6"
[12] #3  Foam::divide(Foam::Field<double>&, Foam::UList<double> const&, Foam::UList<double> const&) in "/lib64/libc.so.6"
[5] #3  Foam::divide(Foam::Field<double>&, Foam::UList<double> const&, Foam::UList<double> const&) in "/lib64/libc.so.6"
[20] #3   in Foam::divide(Foam::Field<double>&, Foam::UList<double> const&, Foam::UList<double> const&)"/lib64/libc.so.6"
[9] #3  Foam::divide(Foam::Field<double>&, Foam::UList<double> const&, Foam::UList<double> const&) at ??:?
[13] #4   at ??:?
[12] #4   at ??:?
[15] #4   at ??:?
[5] #4   at ??:?
[20] #4   at ??:?
[9] #4  Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > Foam::operator/<Foam::fvPatchField, Foam::volMesh>(Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&, Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&)Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > Foam::operator/<Foam::fvPatchField, Foam::volMesh>(Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&, Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&)Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > Foam::operator/<Foam::fvPatchField, Foam::volMesh>(Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&, Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&)Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > Foam::operator/<Foam::fvPatchField, Foam::volMesh>(Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&, Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&)Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > Foam::operator/<Foam::fvPatchField, Foam::volMesh>(Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&, Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&)Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > Foam::operator/<Foam::fvPatchField, Foam::volMesh>(Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&, Foam::tmp<Foam::GeometricField<double, Foam::fvPatchField, Foam::volMesh> > const&) at ??:?
[12] #5  Foam::fluidThermo::nu() const at ??:?
[13] #5  Foam::fluidThermo::nu() const at ??:?
[20] #5  Foam::fluidThermo::nu() const at ??:?
[5] #5  Foam::fluidThermo::nu() const at ??:?
[9] #5  Foam::fluidThermo::nu() const at ??:?
[15] #5  Foam::fluidThermo::nu() const at ??:?
[12] #6  Foam::laminarModels::Stokes<Foam::compressibleMomentumTransportModel>::nuEff() const at ??:?
[13] #6  Foam::laminarModels::Stokes<Foam::compressibleMomentumTransportModel>::nuEff() const at ??:?
[20] #6  Foam::laminarModels::Stokes<Foam::compressibleMomentumTransportModel>::nuEff() const at ??:?
[5] #6  Foam::laminarModels::Stokes<Foam::compressibleMomentumTransportModel>::nuEff() const at ??:?
[9] #6  Foam::laminarModels::Stokes<Foam::compressibleMomentumTransportModel>::nuEff() const at ??:?
[12] #7  Foam::linearViscousStress<Foam::laminarModel<Foam::compressibleMomentumTransportModel> >::divDevTau(Foam::GeometricField<Foam::Vector<double>, Foam::fvPatchField, Foam::volMesh>&) const at ??:?
[15] #6  Foam::laminarModels::Stokes<Foam::compressibleMomentumTransportModel>::nuEff() const at ??:?
[20] #7  Foam::linearViscousStress<Foam::laminarModel<Foam::compressibleMomentumTransportModel> >::divDevTau(Foam::GeometricField<Foam::Vector<double>, Foam::fvPatchField, Foam::volMesh>&) const at ??:?
[13] #7  Foam::linearViscousStress<Foam::laminarModel<Foam::compressibleMomentumTransportModel> >::divDevTau(Foam::GeometricField<Foam::Vector<double>, Foam::fvPatchField, Foam::volMesh>&) const at ??:?
[5] #7  Foam::linearViscousStress<Foam::laminarModel<Foam::compressibleMomentumTransportModel> >::divDevTau(Foam::GeometricField<Foam::Vector<double>, Foam::fvPatchField, Foam::volMesh>&) const at ??:?
[9] #7  Foam::linearViscousStress<Foam::laminarModel<Foam::compressibleMomentumTransportModel> >::divDevTau(Foam::GeometricField<Foam::Vector<double>, Foam::fvPatchField, Foam::volMesh>&) const at ??:?
[12] #8   at ??:?
[20] #8   at ??:?
[13] #8   at ??:?
[5] #8   at ??:?
[15] #7  Foam::linearViscousStress<Foam::laminarModel<Foam::compressibleMomentumTransportModel> >::divDevTau(Foam::GeometricField<Foam::Vector<double>, Foam::fvPatchField, Foam::volMesh>&) const?? at ??:?
[9] #8  ?? at ??:?
[12] #9  __libc_start_main at ??:?
[20] #9  __libc_start_main at ??:?
[15] #8  ? at ??:?
[5] #9  __libc_start_main in "/lib64/libc.so.6"
[12] #10   at ??:?
[13] #9  __libc_start_main in "/lib64/libc.so.6"
[20] #10  ? at ??:?
[9] #9  __libc_start_main? in "/lib64/libc.so.6"
[5] #10  ? in "/lib64/libc.so.6"
[13] #10   at ??:?
[fvkmb176:125684] *** Process received signal ***
[fvkmb176:125684] Signal: Floating point exception (8)
[fvkmb176:125684] Signal code:  (-6)
[fvkmb176:125684] Failing at address: 0x3ec0001eaf4
[fvkmb176:125684] [ 0]  at ??:?
/lib64/libc.so.6(+0x36400)[0x7f2c6554b400]
[fvkmb176:125684] [ 1] [15] #9  /lib64/libc.so.6(gsignal+0x37)[0x7f2c6554b387]
[fvkmb176:125684] [ 2] /lib64/libc.so.6(+0x36400)[0x7f2c6554b400]
[fvkmb176:125684] [ 3] __libc_start_main/opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libOpenFOAM.so(_ZN4Foam6divideERNS_5FieldIdEERKNS_5UListIdEES6_+0xa8)[0x7f2c6669d1e8]
[fvkmb176:125684] [ 4] reactingFoam(_ZN4FoamdvINS_12fvPatchFieldENS_7volMeshEEENS_3tmpINS_14GeometricFieldIdT_T0_EEEERKS8_SA_+0x2e2)[0x4a9b22]
[fvkmb176:125684] [ 5] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libfluidThermophysicalModels.so(_ZNK4Foam11fluidThermo2nuEv+0x47)[0x7f2c6b8eb2d7]
[fvkmb176:125684] [ 6] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam13laminarModels6StokesINS_34compressibleMomentumTransportModelEE5nuEffEv+0x118)[0x7f2c68e4b508]
[fvkmb176:125684] [ 7] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam19linearViscousStressINS_12laminarModelINS_34compressibleMomentumTransportModelEEEE9divDevTauERNS_14GeometricFieldINS_6VectorIdEENS_12fvPatchFieldENS_7volMeshEEE+0x3c)[0x7f2c68e700ec]
[fvkmb176:125684] [ 8] reactingFoam[0x437dbf]
[fvkmb176:125684] [ 9] /lib64/libc.so.6(__libc_start_main+0xf5)[0x7f2c65537555]
[fvkmb176:125684] [10] reactingFoam[0x43d128]
[fvkmb176:125684] *** End of error message ***
? in "/lib64/libc.so.6"
[9] #10   at ??:?
[fvkmb176:125882] *** Process received signal ***
[fvkmb176:125882] Signal: Floating point exception (8)
[fvkmb176:125882] Signal code:  (-6)
[fvkmb176:125882] Failing at address: 0x3ec0001ebba
[fvkmb176:125882] [ 0] /lib64/libc.so.6(+0x36400)[0x7f9a106df400]
[fvkmb176:125882] [ 1] /lib64/libc.so.6(gsignal+0x37)[0x7f9a106df387]
[fvkmb176:125882] [ 2] /lib64/libc.so.6(+0x36400)[0x7f9a106df400]
[fvkmb176:125882] [ 3] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libOpenFOAM.so(_ZN4Foam6divideERNS_5FieldIdEERKNS_5UListIdEES6_+0xa8)[0x7f9a118311e8]
[fvkmb176:125882] [ 4] reactingFoam(_ZN4FoamdvINS_12fvPatchFieldENS_7volMeshEEENS_3tmpINS_14GeometricFieldIdT_T0_EEEERKS8_SA_+0x2e2)[0x4a9b22]
[fvkmb176:125882] [ 5] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libfluidThermophysicalModels.so(_ZNK4Foam11fluidThermo2nuEv+0x47)[0x7f9a16a7f2d7]
[fvkmb176:125882] [ 6] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam13laminarModels6StokesINS_34compressibleMomentumTransportModelEE5nuEffEv+0x118)[0x7f9a13fdf508]
[fvkmb176:125882] [ 7] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam19linearViscousStressINS_12laminarModelINS_34compressibleMomentumTransportModelEEEE9divDevTauERNS_14GeometricFieldINS_6VectorIdEENS_12fvPatchFieldENS_7volMeshEEE+0x3c)[0x7f9a140040ec]
[fvkmb176:125882] [ 8] reactingFoam[0x437dbf]
[fvkmb176:125882] [ 9] /lib64/libc.so.6(__libc_start_main+0xf5)[0x7f9a106cb555]
[fvkmb176:125882] [10] reactingFoam[0x43d128]
[fvkmb176:125882] *** End of error message ***
?? at ??:?
[fvkmb176:125595] *** Process received signal ***
[fvkmb176:125595] Signal: Floating point exception (8)
[fvkmb176:125595] Signal code:  (-6)
[fvkmb176:125595] Failing at address: 0x3ec0001ea9b
[fvkmb176:125595] [ 0] /lib64/libc.so.6(+0x36400)[0x7f766357c400]
[fvkmb176:125595] [ 1] /lib64/libc.so.6(gsignal+0x37)[0x7f766357c387]
[fvkmb176:125595] [ 2] /lib64/libc.so.6(+0x36400)[0x7f766357c400]
[fvkmb176:125595] [ 3] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libOpenFOAM.so(_ZN4Foam6divideERNS_5FieldIdEERKNS_5UListIdEES6_+0xa8)[0x7f76646ce1e8]
[fvkmb176:125595] [ 4] reactingFoam(_ZN4FoamdvINS_12fvPatchFieldENS_7volMeshEEENS_3tmpINS_14GeometricFieldIdT_T0_EEEERKS8_SA_+0x2e2)[0x4a9b22]
[fvkmb176:125595] [ 5] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libfluidThermophysicalModels.so(_ZNK4Foam11fluidThermo2nuEv+0x47)[0x7f766991c2d7]
[fvkmb176:125595] [ 6] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam13laminarModels6StokesINS_34compressibleMomentumTransportModelEE5nuEffEv+0x118)[0x7f7666e7c508]
[fvkmb176:125595] [ 7] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam19linearViscousStressINS_12laminarModelINS_34compressibleMomentumTransportModelEEEE9divDevTauERNS_14GeometricFieldINS_6VectorIdEENS_12fvPatchFieldENS_7volMeshEEE+0x3c)[0x7f7666ea10ec]
[fvkmb176:125595] [ 8] reactingFoam[0x437dbf]
[fvkmb176:125595] [ 9] /lib64/libc.so.6(__libc_start_main+0xf5)[0x7f7663568555]
[fvkmb176:125595] [10] reactingFoam[0x43d128]
[fvkmb176:125595] *** End of error message ***
 in "/lib64/libc.so.6"
[15] #10   at ??:?
[fvkmb176:125700] *** Process received signal ***
[fvkmb176:125700] Signal: Floating point exception (8)
[fvkmb176:125700] Signal code:  (-6)
[fvkmb176:125700] Failing at address: 0x3ec0001eb04
[fvkmb176:125700] [ 0] /lib64/libc.so.6(+0x36400)[0x7f9d3ddcb400]
[fvkmb176:125700] [ 1] /lib64/libc.so.6(gsignal+0x37)[0x7f9d3ddcb387]
[fvkmb176:125700] [ 2] /lib64/libc.so.6(+0x36400)[0x7f9d3ddcb400]
[fvkmb176:125700] [ 3] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libOpenFOAM.so(_ZN4Foam6divideERNS_5FieldIdEERKNS_5UListIdEES6_+0xa8)[0x7f9d3ef1d1e8]
[fvkmb176:125700] [ 4] reactingFoam(_ZN4FoamdvINS_12fvPatchFieldENS_7volMeshEEENS_3tmpINS_14GeometricFieldIdT_T0_EEEERKS8_SA_+0x2e2)[0x4a9b22]
[fvkmb176:125700] [ 5] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libfluidThermophysicalModels.so(_ZNK4Foam11fluidThermo2nuEv+0x47)[0x7f9d4416b2d7]
[fvkmb176:125700] [ 6] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam13laminarModels6StokesINS_34compressibleMomentumTransportModelEE5nuEffEv+0x118)[0x7f9d416cb508]
[fvkmb176:125700] [ 7] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam19linearViscousStressINS_12laminarModelINS_34compressibleMomentumTransportModelEEEE9divDevTauERNS_14GeometricFieldINS_6VectorIdEENS_12fvPatchFieldENS_7volMeshEEE+0x3c)[0x7f9d416f00ec]
[fvkmb176:125700] [ 8] reactingFoam[0x437dbf]
[fvkmb176:125700] [ 9] /lib64/libc.so.6(__libc_start_main+0xf5)[0x7f9d3ddb7555]
[fvkmb176:125700] [10] reactingFoam[0x43d128]
[fvkmb176:125700] *** End of error message ***
 at ??:?
[fvkmb176:125641] *** Process received signal ***
[fvkmb176:125641] Signal: Floating point exception (8)
[fvkmb176:125641] Signal code:  (-6)
[fvkmb176:125641] Failing at address: 0x3ec0001eac9
[fvkmb176:125641] [ 0] /lib64/libc.so.6(+0x36400)[0x7f4b0fda9400]
[fvkmb176:125641] [ 1] /lib64/libc.so.6(gsignal+0x37)[0x7f4b0fda9387]
[fvkmb176:125641] [ 2] /lib64/libc.so.6(+0x36400)[0x7f4b0fda9400]
[fvkmb176:125641] [ 3] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libOpenFOAM.so(_ZN4Foam6divideERNS_5FieldIdEERKNS_5UListIdEES6_+0xa8)[0x7f4b10efb1e8]
[fvkmb176:125641] [ 4] reactingFoam(_ZN4FoamdvINS_12fvPatchFieldENS_7volMeshEEENS_3tmpINS_14GeometricFieldIdT_T0_EEEERKS8_SA_+0x2e2)[0x4a9b22]
[fvkmb176:125641] [ 5] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libfluidThermophysicalModels.so(_ZNK4Foam11fluidThermo2nuEv+0x47)[0x7f4b161492d7]
[fvkmb176:125641] [ 6] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam13laminarModels6StokesINS_34compressibleMomentumTransportModelEE5nuEffEv+0x118)[0x7f4b136a9508]
[fvkmb176:125641] [ 7] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam19linearViscousStressINS_12laminarModelINS_34compressibleMomentumTransportModelEEEE9divDevTauERNS_14GeometricFieldINS_6VectorIdEENS_12fvPatchFieldENS_7volMeshEEE+0x3c)[0x7f4b136ce0ec]
[fvkmb176:125641] [ 8] reactingFoam[0x437dbf]
[fvkmb176:125641] [ 9] /lib64/libc.so.6(__libc_start_main+0xf5)[0x7f4b0fd95555]
[fvkmb176:125641] [10] reactingFoam[0x43d128]
[fvkmb176:125641] *** End of error message ***
? at ??:?
[fvkmb176:125750] *** Process received signal ***
[fvkmb176:125750] Signal: Floating point exception (8)
[fvkmb176:125750] Signal code:  (-6)
[fvkmb176:125750] Failing at address: 0x3ec0001eb36
[fvkmb176:125750] [ 0] /lib64/libc.so.6(+0x36400)[0x7f46e0982400]
[fvkmb176:125750] [ 1] /lib64/libc.so.6(gsignal+0x37)[0x7f46e0982387]
[fvkmb176:125750] [ 2] /lib64/libc.so.6(+0x36400)[0x7f46e0982400]
[fvkmb176:125750] [ 3] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libOpenFOAM.so(_ZN4Foam6divideERNS_5FieldIdEERKNS_5UListIdEES6_+0xa8)[0x7f46e1ad41e8]
[fvkmb176:125750] [ 4] reactingFoam(_ZN4FoamdvINS_12fvPatchFieldENS_7volMeshEEENS_3tmpINS_14GeometricFieldIdT_T0_EEEERKS8_SA_+0x2e2)[0x4a9b22]
[fvkmb176:125750] [ 5] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libfluidThermophysicalModels.so(_ZNK4Foam11fluidThermo2nuEv+0x47)[0x7f46e6d222d7]
[fvkmb176:125750] [ 6] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam13laminarModels6StokesINS_34compressibleMomentumTransportModelEE5nuEffEv+0x118)[0x7f46e4282508]
[fvkmb176:125750] [ 7] /opt/OpenFOAM/OpenFOAM-git/platforms/linux64GccDPInt32Opt/lib/libcompressibleMomentumTransportModels.so(_ZNK4Foam19linearViscousStressINS_12laminarModelINS_34compressibleMomentumTransportModelEEEE9divDevTauERNS_14GeometricFieldINS_6VectorIdEENS_12fvPatchFieldENS_7volMeshEEE+0x3c)[0x7f46e42a70ec]
[fvkmb176:125750] [ 8] reactingFoam[0x437dbf]
[fvkmb176:125750] [ 9] /lib64/libc.so.6(__libc_start_main+0xf5)[0x7f46e096e555]
[fvkmb176:125750] [10] reactingFoam[0x43d128]
[fvkmb176:125750] *** End of error message ***
--------------------------------------------------------------------------
Primary job  terminated normally, but 1 process returned
a non-zero exit code. Per user-direction, the job has been aborted.
--------------------------------------------------------------------------
--------------------------------------------------------------------------
mpirun noticed that process rank 9 with PID 0 on node fvkmb176 exited on signal 8 (Floating point exception).
--------------------------------------------------------------------------
[fvkmb176:125558] 5 more processes have sent help message help-opal-runtime.txt / opal_init:warn-fork
log.txt (50,319 bytes)   

henry

2022-07-25 15:32

manager   ~0012687

What level of funding can you allocate to work on this?

henry

2022-07-25 15:56

manager   ~0012689

If you think it might be easy to fix could you look into it and provide a patch?

cgoessni

2022-07-25 16:03

reporter   ~0012690

I will try, but I have just hope, and not reason to think that it is a one-liner fix.

One quick check, if the density is 0, did not confirm my initial thought that it could be a division-by-zero error.

henry

2022-07-25 16:31

manager   ~0012691

I don't know, you did not provide a means to reproduce the problem.

cgoessni

2022-07-25 16:54

reporter   ~0012692

I can provide you the case, if you want to investigate it.

cgoessni

2022-07-26 06:45

reporter   ~0012693

I checked now in more detail: After mapping, there are cells with zero pressure and temperature, which makes the solver crash, see the attached image.

This happens with direct and cellVolumeWeight in parallel, and cellVolumeWeight in serial. The direct interpolation method works in serial.

Please close this issue, since this crash is above my knowlegde of OpenFOAM to debug.
zero_pressure_cells.png (239,046 bytes)   
zero_pressure_cells.png (239,046 bytes)   

henry

2022-07-26 10:42

manager   ~0012694

Pending a test-case and funding.

Issue History

Date Modified Username Field Change
2022-07-25 14:46 cgoessni New Issue
2022-07-25 14:46 cgoessni File Added: log.txt
2022-07-25 15:32 henry Note Added: 0012687
2022-07-25 15:56 henry Note Added: 0012689
2022-07-25 16:03 cgoessni Note Added: 0012690
2022-07-25 16:31 henry Note Added: 0012691
2022-07-25 16:54 cgoessni Note Added: 0012692
2022-07-26 06:45 cgoessni File Added: zero_pressure_cells.png
2022-07-26 06:45 cgoessni Note Added: 0012693
2022-07-26 10:42 henry Assigned To => henry
2022-07-26 10:42 henry Status new => closed
2022-07-26 10:42 henry Resolution open => suspended
2022-07-26 10:42 henry Note Added: 0012694