> 39 SNES Function norm 3.758101652998e-08 > 0 KSP preconditioned resid norm 1.931834799209e-02 true resid norm > 3.758101652998e-08 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 5.958979968059e-16 true resid norm > 2.588244438237e-18 ||r(i)||/||b|| 6.887105983875e-11
The SNES function norm is pretty small here are you sure you need it smaller. > Nonlinear solve did not converge due to DIVERGED_FUNCTION_COUNT i You should just set the function count to say 1 billion so it doesn't stop the solution process. > On Jul 5, 2017, at 11:24 AM, Maximilian Hartig <[email protected]> > wrote: > > The solver goes on for some timesteps, then it gets hung up in step 10. The > output is as follows: > > 28 SNES Function norm 7.825649542035e-06 > 0 KSP preconditioned resid norm 5.335581451751e+00 true resid norm > 7.825649542035e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 3.875747966342e-13 true resid norm > 3.082821236889e-15 ||r(i)||/||b|| 3.939380648635e-10 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 29 SNES Function norm 7.825641650401e-06 > 0 KSP preconditioned resid norm 5.335568660325e+00 true resid norm > 7.825641650401e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 1.169064646930e-13 true resid norm > 2.949237553452e-15 ||r(i)||/||b|| 3.768684646199e-10 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 30 SNES Function norm 7.825633758775e-06 > 0 KSP preconditioned resid norm 5.335575714181e+00 true resid norm > 7.825633758775e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 3.626528075820e-13 true resid norm > 7.454935467844e-16 ||r(i)||/||b|| 9.526302530432e-11 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 31 SNES Function norm 7.825625867144e-06 > 0 KSP preconditioned resid norm 5.335574289757e+00 true resid norm > 7.825625867144e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 1.220021201426e-13 true resid norm > 6.140701297052e-16 ||r(i)||/||b|| 7.846913973787e-11 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 32 SNES Function norm 7.825617975525e-06 > 0 KSP preconditioned resid norm 5.335556211708e+00 true resid norm > 7.825617975525e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 3.238615954344e-14 true resid norm > 1.639170816829e-15 ||r(i)||/||b|| 2.094621564655e-10 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 33 SNES Function norm 7.825610083913e-06 > 0 KSP preconditioned resid norm 5.335545135100e+00 true resid norm > 7.825610083913e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 8.328043430360e-14 true resid norm > 7.902728010647e-16 ||r(i)||/||b|| 1.009854557780e-10 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 34 SNES Function norm 7.825609294752e-06 > 0 KSP preconditioned resid norm 5.335519330054e+00 true resid norm > 7.825609294752e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 1.176339150741e-13 true resid norm > 2.137240765649e-15 ||r(i)||/||b|| 2.731085446703e-10 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 35 SNES Function norm 7.825608505592e-06 > 0 KSP preconditioned resid norm 5.335552250936e+00 true resid norm > 7.825608505592e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 2.388837462586e-13 true resid norm > 3.899327292367e-16 ||r(i)||/||b|| 4.982778386601e-11 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 36 SNES Function norm 7.825607716432e-06 > 0 KSP preconditioned resid norm 1.017554264638e-01 true resid norm > 7.825607716432e-06 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 2.758703070887e-14 true resid norm > 1.990491888342e-16 ||r(i)||/||b|| 2.543562059932e-11 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 37 SNES Function norm 3.815837655573e-08 > 0 KSP preconditioned resid norm 7.197730150406e+00 true resid norm > 3.815837655573e-08 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 7.114599045039e-12 true resid norm > 4.763264085142e-16 ||r(i)||/||b|| 1.248287929175e-08 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 38 SNES Function norm 3.790245121284e-08 > 0 KSP preconditioned resid norm 7.127517791828e+00 true resid norm > 3.790245121284e-08 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 2.500976336448e-11 true resid norm > 1.692661771456e-15 ||r(i)||/||b|| 4.465837214461e-08 > Linear solve converged due to CONVERGED_RTOL iterations 1 > 39 SNES Function norm 3.758101652998e-08 > 0 KSP preconditioned resid norm 1.931834799209e-02 true resid norm > 3.758101652998e-08 ||r(i)||/||b|| 1.000000000000e+00 > 1 KSP preconditioned resid norm 5.958979968059e-16 true resid norm > 2.588244438237e-18 ||r(i)||/||b|| 6.887105983875e-11 > Linear solve converged due to CONVERGED_RTOL iterations 1 > Nonlinear solve did not converge due to DIVERGED_FUNCTION_COUNT iterations > 39 > [0]PETSC ERROR: --------------------- Error Message > -------------------------------------------------------------- > [0]PETSC ERROR: > [0]PETSC ERROR: TSStep has failed due to DIVERGED_NONLINEAR_SOLVE, increase > -ts_max_snes_failures or make negative to attempt recovery > [0]PETSC ERROR: See http://www.mcs.anl.gov/petsc/documentation/faq.html for > trouble shooting. > [0]PETSC ERROR: Petsc Development GIT revision: v3.7.5-3342-gb122798 GIT > Date: 2017-03-22 17:42:51 -0500 > [0]PETSC ERROR: ./miniFEM on a arch-linux2-c-debug named iket127138 by hartig > Wed Jul 5 18:09:53 2017 > [0]PETSC ERROR: Configure options PETSC_ARCH=arch-linux2-c-debug > --with-cc=mpigcc --with-cxx=mpicxx --with-fc=mpif90 --download-ml > --download-parmetis --download-metis --download-hypre --download-mumps > --download-scalapack > [0]PETSC ERROR: #1 TSStep() line 3818 in > /home/hartig/petsc/src/ts/interface/ts.c > [0]PETSC ERROR: #2 TSSolve() line 4054 in > /home/hartig/petsc/src/ts/interface/ts.c > [0]PETSC ERROR: #3 main() line 1829 in > /home/hartig/Nextcloud/Dissertation/Code/Debugging/miniFEM.c > [0]PETSC ERROR: PETSc Option Table entries: > [0]PETSC ERROR: -def_petscspace_order 2 > [0]PETSC ERROR: -eplast_petscspace_order 2 > [0]PETSC ERROR: -ksp_converged_reason > [0]PETSC ERROR: -ksp_monitor_true_residual > [0]PETSC ERROR: -pc_type lu > [0]PETSC ERROR: -plast > [0]PETSC ERROR: -snes_converged_reason > [0]PETSC ERROR: -snes_fd > [0]PETSC ERROR: -snes_monitor > [0]PETSC ERROR: -snes_type newtonls > [0]PETSC ERROR: -ts_monitor > [0]PETSC ERROR: -vel_petscspace_order 2 > [0]PETSC ERROR: ----------------End of Error Message -------send entire error > message to [email protected] > > > Thanks, > Max > > > 2017-06-30 17:14 GMT+02:00 Barry Smith <[email protected]>: > > What is the output from > > -snes_monitor -ksp_monitor_true_residual -pc_type lu > -ksp_converged_reason -snes_converged_reason > > > > On Jun 30, 2017, at 3:45 AM, Maximilian Hartig <[email protected]> > > wrote: > > > > Hello, > > > > I’m trying to implement plasticity and have problems getting the Petsc SNES > > to converge. To check if my residual formulation is correct I tried running > > with -snes_fd for an easy example as the Petsc FAQ suggest. I cannot seem > > to get the solver to converge at any cost. > > I already tried to impose bounds on the solution and moved to vinewtonrsls > > as a nonlinear solver. I checked and rechecked my residuals but I do not > > find an error there. I now have the suspicion that the -snes_fd option is > > not made for handling residuals who’s first derivatives are not continuous > > (e.g. have an “if” condition in them for the plasticity/ flow-condition). > > Can you confirm my suspicion? And is there another way to test my residual > > formulation separate from my hand-coded jacobian? > > > > > > Thanks, > > Max > >
