[petsc-users] GAMG speed
Barry Smith
bsmith at mcs.anl.gov
Thu Aug 1 17:11:02 CDT 2013
Where are you putting the values into the matrix? It seems the matrix has no values in it? The code is stopping because in the Gauss-Seidel smoothing it has detected zero diagonals.
Barry
On Aug 1, 2013, at 4:47 PM, Michele Rosso <mrosso at uci.edu> wrote:
> Barry,
>
> I run with : -pc_type mg -pc_mg_galerkin -da_refine 4 -ksp_view -options_left
>
> For the test I use a 64^3 grid and 4 processors.
>
> The output is:
>
> [2]PETSC ERROR: --------------------- Error Message ------------------------------------
> [2]PETSC ERROR: Arguments are incompatible!
> [2]PETSC ERROR: Zero diagonal on row 0!
> [2]PETSC ERROR: ------------------------------------------------------------------------
> [2]PETSC ERROR: Petsc Release Version 3.4.2, Jul, 02, 2013
> [2]PETSC ERROR: See docs/changes/index.html for recent updates.
> [2]PETSC ERROR: See docs/faq.html for hints about trouble shooting.
> [2]PETSC ERROR: See docs/index.html for manual pages.
> [2]PETSC ERROR: ------------------------------------------------------------------------
> [2]PETSC ERROR: ./test on a linux-gnu-dbg named enterprise-A by mic Thu Aug 1 14:44:04 2013
> [0]PETSC ERROR: [2]PETSC ERROR: Libraries linked from /opt/petsc/petsc-3.4.2/linux-gnu-dbg/lib
> [2]PETSC ERROR: Configure run at Thu Aug 1 12:01:44 2013
> [2]PETSC ERROR: Configure options
> [2]PETSC ERROR: ------------------------------------------------------------------------
> [2]PETSC ERROR: MatInvertDiagonal_SeqAIJ() line 1457 in src/mat/impls/aij/seq/aij.c
> [2]PETSC ERROR: MatSOR_SeqAIJ() line 1489 in src/mat/impls/aij/seq/aij.c
> --------------------- Error Message ------------------------------------
> [2]PETSC ERROR: MatSOR_MPIAIJ() line 1623 in src/mat/impls/aij/mpi/mpiaij.c
> [2]PETSC ERROR: MatSOR() line 3649 in src/mat/interface/matrix.c
> [2]PETSC ERROR: [0]PETSC ERROR: PCApply_SOR() line 35 in src/ksp/pc/impls/sor/sor.c
> [2]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [2]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/interface//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> Arguments are incompatible!
> [2]PETSC ERROR: KSPInitialResidual() line 64 in src/ksp/ksp/interface/itres.c
> [2]PETSC ERROR: KSPSolve_GMRES() line 239 in src/ksp/ksp/impls/gmres/gmres.c
> [2]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [2]PETSC ERROR: [0]PETSC ERROR: KSPSolve_Chebyshev() line 409 in src/ksp/ksp/impls/cheby/cheby.c
> [2]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [2]PETSC ERROR: PCMGMCycle_Private() line 19 in src/ksp/pc/impls/mg/mg.c
> Zero diagonal on row 0!
> [2]PETSC ERROR: PCApply_MG() line 330 in src/ksp/pc/impls/mg/mg.c
> [2]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [0]PETSC ERROR: [2]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/impls/cg//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [2]PETSC ERROR: KSPSolve_CG() line 175 in src/ksp/ksp/impls/cg/cg.c
> ------------------------------------------------------------------------
> [2]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [0]PETSC ERROR: Petsc Release Version 3.4.2, Jul, 02, 2013
> [0]PETSC ERROR: See docs/changes/index.html for recent updates.
> [3]PETSC ERROR: [0]PETSC ERROR: See docs/faq.html for hints about trouble shooting.
> [0]PETSC ERROR: --------------------- Error Message ------------------------------------
> [3]PETSC ERROR: Arguments are incompatible!
> [3]PETSC ERROR: Zero diagonal on row 0!
> [3]PETSC ERROR: ------------------------------------------------------------------------
> [3]PETSC ERROR: Petsc Release Version 3.4.2, Jul, 02, 2013
> [3]PETSC ERROR: See docs/changes/index.html for recent updates.
> [3]PETSC ERROR: See docs/faq.html for hints about trouble shooting.
> [3]PETSC ERROR: See docs/index.html for manual pages.
> [3]PETSC ERROR: ------------------------------------------------------------------------
> See docs/index.html for manual pages.
> [3]PETSC ERROR: ./test on a linux-gnu-dbg named enterprise-A by mic Thu Aug 1 14:44:04 2013
> [3]PETSC ERROR: Libraries linked from /opt/petsc/petsc-3.4.2/linux-gnu-dbg/lib
> [1]PETSC ERROR: [3]PETSC ERROR: Configure run at Thu Aug 1 12:01:44 2013
> [3]PETSC ERROR: Configure options
> [3]PETSC ERROR: ------------------------------------------------------------------------
> [3]PETSC ERROR: --------------------- Error Message ------------------------------------
> MatInvertDiagonal_SeqAIJ() line 1457 in src/mat/impls/aij/seq/aij.c
> [3]PETSC ERROR: MatSOR_SeqAIJ() line 1489 in src/mat/impls/aij/seq/aij.c
> [3]PETSC ERROR: [0]PETSC ERROR: MatSOR_MPIAIJ() line 1623 in src/mat/impls/aij/mpi/mpiaij.c
> [1]PETSC ERROR: Arguments are incompatible!
> [1]PETSC ERROR: Zero diagonal on row 0!
> [1]PETSC ERROR: ------------------------------------------------------------------------
> [1]PETSC ERROR: Petsc Release Version 3.4.2, Jul, 02, 2013
> [1]PETSC ERROR: See docs/changes/index.html for recent updates.
> [1]PETSC ERROR: See docs/faq.html for hints about trouble shooting.
> [1]PETSC ERROR: See docs/index.html for manual pages.
> [1]PETSC ERROR: ------------------------------------------------------------------------
> [1]PETSC ERROR: ./test on a linux-gnu-dbg named enterprise-A by mic Thu Aug 1 14:44:04 2013
> [1]PETSC ERROR: Libraries linked from /opt/petsc/petsc-3.4.2/linux-gnu-dbg/lib
> [1]PETSC ERROR: Configure run at Thu Aug 1 12:01:44 2013
> [1]PETSC ERROR: Configure options
> [1]PETSC ERROR: ------------------------------------------------------------------------
> [1]PETSC ERROR: MatInvertDiagonal_SeqAIJ() line 1457 in src/mat/impls/aij/seq/aij.c
> [1]PETSC ERROR: [3]PETSC ERROR: MatSOR() line 3649 in src/mat/interface/matrix.c
> [3]PETSC ERROR: PCApply_SOR() line 35 in src/ksp/pc/impls/sor/sor.c
> [3]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [3]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/interface//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [3]PETSC ERROR: KSPInitialResidual() line 64 in src/ksp/ksp/interface/itres.c
> [3]PETSC ERROR: KSPSolve_GMRES() line 239 in src/ksp/ksp/impls/gmres/gmres.c
> [3]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [3]PETSC ERROR: KSPSolve_Chebyshev() line 409 in src/ksp/ksp/impls/cheby/cheby.c
> [3]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [3]PETSC ERROR: PCMGMCycle_Private() line 19 in src/ksp/pc/impls/mg/mg.c
> [3]PETSC ERROR: PCApply_MG() line 330 in src/ksp/pc/impls/mg/mg.c
> [3]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [3]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/impls/cg//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [3]PETSC ERROR: KSPSolve_CG() line 175 in src/ksp/ksp/impls/cg/cg.c
> [3]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> MatSOR_SeqAIJ() line 1489 in src/mat/impls/aij/seq/aij.c
> [1]PETSC ERROR: MatSOR_MPIAIJ() line 1623 in src/mat/impls/aij/mpi/mpiaij.c
> [1]PETSC ERROR: MatSOR() line 3649 in src/mat/interface/matrix.c
> [1]PETSC ERROR: PCApply_SOR() line 35 in src/ksp/pc/impls/sor/sor.c
> [1]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [1]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/interface//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [1]PETSC ERROR: KSPInitialResidual() line 64 in src/ksp/ksp/interface/itres.c
> [1]PETSC ERROR: KSPSolve_GMRES() line 239 in src/ksp/ksp/impls/gmres/gmres.c
> [1]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [1]PETSC ERROR: KSPSolve_Chebyshev() line 409 in src/ksp/ksp/impls/cheby/cheby.c
> [1]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [1]PETSC ERROR: PCMGMCycle_Private() line 19 in src/ksp/pc/impls/mg/mg.c
> [1]PETSC ERROR: PCApply_MG() line 330 in src/ksp/pc/impls/mg/mg.c
> [1]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [1]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/impls/cg//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [1]PETSC ERROR: KSPSolve_CG() line 175 in src/ksp/ksp/impls/cg/cg.c
> [1]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> ------------------------------------------------------------------------
> [0]PETSC ERROR: ./test on a linux-gnu-dbg named enterprise-A by mic Thu Aug 1 14:44:04 2013
> [0]PETSC ERROR: Libraries linked from /opt/petsc/petsc-3.4.2/linux-gnu-dbg/lib
> [0]PETSC ERROR: Configure run at Thu Aug 1 12:01:44 2013
> [0]PETSC ERROR: Configure options
> [0]PETSC ERROR: ------------------------------------------------------------------------
> [0]PETSC ERROR: MatInvertDiagonal_SeqAIJ() line 1457 in src/mat/impls/aij/seq/aij.c
> [0]PETSC ERROR: MatSOR_SeqAIJ() line 1489 in src/mat/impls/aij/seq/aij.c
> [0]PETSC ERROR: MatSOR_MPIAIJ() line 1623 in src/mat/impls/aij/mpi/mpiaij.c
> [0]PETSC ERROR: MatSOR() line 3649 in src/mat/interface/matrix.c
> [0]PETSC ERROR: PCApply_SOR() line 35 in src/ksp/pc/impls/sor/sor.c
> [0]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [0]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/interface//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [0]PETSC ERROR: KSPInitialResidual() line 64 in src/ksp/ksp/interface/itres.c
> [0]PETSC ERROR: KSPSolve_GMRES() line 239 in src/ksp/ksp/impls/gmres/gmres.c
> [0]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [0]PETSC ERROR: KSPSolve_Chebyshev() line 409 in src/ksp/ksp/impls/cheby/cheby.c
> [0]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> [0]PETSC ERROR: PCMGMCycle_Private() line 19 in src/ksp/pc/impls/mg/mg.c
> [0]PETSC ERROR: PCApply_MG() line 330 in src/ksp/pc/impls/mg/mg.c
> [0]PETSC ERROR: PCApply() line 442 in src/ksp/pc/interface/precon.c
> [0]PETSC ERROR: KSP_PCApply() line 227 in src/ksp/ksp/impls/cg//opt/petsc/petsc-3.4.2/include/petsc-private/kspimpl.h
> [0]PETSC ERROR: KSPSolve_CG() line 175 in src/ksp/ksp/impls/cg/cg.c
> [0]PETSC ERROR: KSPSolve() line 441 in src/ksp/ksp/interface/itfunc.c
> #PETSc Option Table entries:
> -da_refine 4
> -ksp_view
> -options_left
> -pc_mg_galerkin
> -pc_type mg
> #End of PETSc Option Table entries
> There is one unused database option. It is:
> Option left: name:-da_refine value: 4
>
>
> Here is the code I use to setup DMDA and KSP:
>
> call DMDACreate3d( PETSC_COMM_WORLD , &
> & DMDA_BOUNDARY_PERIODIC , DMDA_BOUNDARY_PERIODIC, &
> & DMDA_BOUNDARY_PERIODIC , DMDA_STENCIL_STAR, &
> & N_Z , N_Y , N_X , N_B3 , N_B2 , 1_ip, 1_ip , 1_ip , &
> & int(NNZ,ip) ,int(NNY,ip) , NNX, da , ierr)
>
> ! Create Global Vectors
> call DMCreateGlobalVector(da,b,ierr)
> call VecDuplicate(b,x,ierr)
>
> ! Set initial guess for first use of the module to 0
> call VecSet(x,0.0_rp,ierr)
>
> ! Create matrix
> call DMCreateMatrix(da,MATMPIAIJ,A,ierr)
>
> ! Create solver
> call KSPCreate(PETSC_COMM_WORLD,ksp,ierr)
> call KSPSetDM(ksp,da,ierr)
> call KSPSetOperators(ksp,A,A,DIFFERENT_NONZERO_PATTERN,ierr)
> ! call KSPSetOperators(ksp,A,A,SAME_NONZERO_PATTERN,ierr)
> call KSPSetType(ksp,KSPCG,ierr)
> call KSPSetNormType(ksp,KSP_NORM_UNPRECONDITIONED,ierr) ! Real residual
> call KSPSetInitialGuessNonzero(ksp,PETSC_TRUE,ierr)
> call KSPSetTolerances(ksp, tol ,PETSC_DEFAULT_DOUBLE_PRECISION,&
> & PETSC_DEFAULT_DOUBLE_PRECISION,PETSC_DEFAULT_INTEGER,ierr)
>
> ! To allow using option from command line
> call KSPSetFromOptions(ksp,ierr)
>
>
> Michele
>
>
>
>
> On 08/01/2013 01:04 PM, Barry Smith wrote:
>> You can use the option -pc_mg_galerkin and then MG will compute the coarser matrices with a sparse matrix matrix matrix product so you should not need to change your code to try it out. You still need to use the KSPSetDM() and -da_refine n to get it working
>>
>> If it doesn't work, send us all the output.
>>
>> Barry
>>
>>
>> On Aug 1, 2013, at 2:47 PM, Michele Rosso
>> <mrosso at uci.edu>
>> wrote:
>>
>>
>>> Barry,
>>> you are correct, I did not use it. I think I get now where is the problem. Correct me if I am wrong, but for the
>>> geometric multigrid to work, ksp must be provided with subroutines to compute the matrix and the rhs at any level through
>>> KSPSetComputeOperators and KSPSetComputeRHS.
>>> I do not do that, I simply build a rhs vector and a matrix and then I solve the system.
>>> If you confirm what I just wrote, I will try to modify my code accordingly and get back to you.
>>> Thank you,
>>> Michele
>>>
>>> On 08/01/2013 11:48 AM, Barry Smith wrote:
>>>
>>>> Do you use KSPSetDM(ksp,da); ? See src/ksp/ksp/examples/tutorials/ex19.c
>>>>
>>>> Barry
>>>>
>>>> On Aug 1, 2013, at 1:35 PM, Michele Rosso
>>>>
>>>> <mrosso at uci.edu>
>>>>
>>>> wrote:
>>>>
>>>>
>>>>
>>>>> Barry,
>>>>>
>>>>> I am using a finite difference Cartesian uniform grid and DMDA and so far it has not given me any problem.
>>>>> I am using a ksp solver (not snes). In a previous thread, I was told an odd number of grid points was needed for the geometric multigrid, is that correct?
>>>>> I tried to run my case with
>>>>>
>>>>>
>>>>> -pc_type mg -da_refine 4
>>>>>
>>>>>
>>>>>
>>>>> but it does not seem to use the -da_refine option:
>>>>>
>>>>> mpiexec -np 4 ./test -pc_type mg -da_refine 4 -ksp_view -options_left
>>>>>
>>>>>
>>>>> KSP Object: 4 MPI processes
>>>>> type: cg
>>>>> maximum iterations=10000
>>>>> tolerances: relative=1e-08, absolute=1e-50, divergence=10000
>>>>> left preconditioning
>>>>> using nonzero initial guess
>>>>> using UNPRECONDITIONED norm type for convergence test
>>>>> PC Object: 4 MPI processes
>>>>> type: mg
>>>>> MG: type is MULTIPLICATIVE, levels=1 cycles=v
>>>>> Cycles per PCApply=1
>>>>> Not using Galerkin computed coarse grid matrices
>>>>> Coarse grid solver -- level -------------------------------
>>>>> KSP Object: (mg_levels_0_) 4 MPI processes
>>>>> type: chebyshev
>>>>> Chebyshev: eigenvalue estimates: min = 0.134543, max = 1.47998
>>>>> Chebyshev: estimated using: [0 0.1; 0 1.1]
>>>>> KSP Object: (mg_levels_0_est_) 4 MPI processes
>>>>> type: gmres
>>>>> GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement
>>>>> GMRES: happy breakdown tolerance 1e-30
>>>>> maximum iterations=10, initial guess is zero
>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>> left preconditioning
>>>>> using NONE norm type for convergence test
>>>>> PC Object: (mg_levels_0_) 4 MPI processes
>>>>> type: sor
>>>>> SOR: type = local_symmetric, iterations = 1, local iterations = 1, omega = 1
>>>>> linear system matrix = precond matrix:
>>>>> Matrix Object: 4 MPI processes
>>>>> type: mpiaij
>>>>> rows=262144, cols=262144
>>>>> total: nonzeros=1835008, allocated nonzeros=1835008
>>>>> total number of mallocs used during MatSetValues calls =0
>>>>> maximum iterations=1, initial guess is zero
>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>> left preconditioning
>>>>> using NONE norm type for convergence test
>>>>> PC Object: (mg_levels_0_) 4 MPI processes
>>>>> type: sor
>>>>> SOR: type = local_symmetric, iterations = 1, local iterations = 1, omega = 1
>>>>> linear system matrix = precond matrix:
>>>>> Matrix Object: 4 MPI processes
>>>>> type: mpiaij
>>>>> rows=262144, cols=262144
>>>>> total: nonzeros=1835008, allocated nonzeros=1835008
>>>>> total number of mallocs used during MatSetValues calls =0
>>>>> linear system matrix = precond matrix:
>>>>> Matrix Object: 4 MPI processes
>>>>> type: mpiaij
>>>>> rows=262144, cols=262144
>>>>> total: nonzeros=1835008, allocated nonzeros=1835008
>>>>> total number of mallocs used during MatSetValues calls =0
>>>>> Solution = 1.53600013 sec
>>>>> #PETSc Option Table entries:
>>>>> -da_refine 4
>>>>> -ksp_view
>>>>> -options_left
>>>>> -pc_type mg
>>>>> #End of PETSc Option Table entries
>>>>> There is one unused database option. It is:
>>>>> Option left: name:-da_refine value: 4
>>>>>
>>>>> Michele
>>>>>
>>>>> On 08/01/2013 11:21 AM, Barry Smith wrote:
>>>>>
>>>>>
>>>>>> What kind of mesh are you using? Are you using DMDA? If you are using DMDA (and have written your code to use it "correctly") then it should be trivial to run with geometric multigrid and geometric multigrid should be a bit faster.
>>>>>>
>>>>>> For example on src/snes/examples/tutorials/ex19.c I run with ./ex19 -pc_type mg -da_refine 4 and it refines the original DMDA 4 times and uses geometric multigrid with 5 levels.
>>>>>>
>>>>>>
>>>>>> Barry
>>>>>>
>>>>>>
>>>>>> On Aug 1, 2013, at 1:14 PM, Michele Rosso
>>>>>>
>>>>>> <mrosso at uci.edu>
>>>>>>
>>>>>> wrote:
>>>>>>
>>>>>>
>>>>>>
>>>>>>> Hi,
>>>>>>>
>>>>>>> I am successfully using PETSc (v3.4.2) to solve a 3D Poisson's equation with CG + GAMG as I was suggested to do in a previous thread.
>>>>>>> So far I am using GAMG with the default settings, i.e.
>>>>>>>
>>>>>>> -pc_type gamg -pc_gamg_agg_nsmooths 1
>>>>>>>
>>>>>>> The speed of the solution is satisfactory, but I would like to know if you have any suggestions to further speed it up, particularly
>>>>>>> if there is any parameters worth looking into to achieve an even faster solution, for example number of levels and so on.
>>>>>>> So far I am using Dirichlet's BCs for my test case, but I will soon have periodic conditions: in this case, does GAMG require particular settings?
>>>>>>> Finally, I did not try geometric multigrid: do you think it is worth a shot?
>>>>>>>
>>>>>>> Here are my current settings:
>>>>>>>
>>>>>>> I run with
>>>>>>>
>>>>>>> -pc_type gamg -pc_gamg_agg_nsmooths 1 -ksp_view -options_left
>>>>>>>
>>>>>>> and the output is:
>>>>>>>
>>>>>>> KSP Object: 4 MPI processes
>>>>>>> type: cg
>>>>>>> maximum iterations=10000
>>>>>>> tolerances: relative=1e-08, absolute=1e-50, divergence=10000
>>>>>>> left preconditioning
>>>>>>> using nonzero initial guess
>>>>>>> using UNPRECONDITIONED norm type for convergence test
>>>>>>> PC Object: 4 MPI processes
>>>>>>> type: gamg
>>>>>>> MG: type is MULTIPLICATIVE, levels=3 cycles=v
>>>>>>> Cycles per PCApply=1
>>>>>>> Using Galerkin computed coarse grid matrices
>>>>>>> Coarse grid solver -- level -------------------------------
>>>>>>> KSP Object: (mg_coarse_) 4 MPI processes
>>>>>>> type: preonly
>>>>>>> maximum iterations=1, initial guess is zero
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> left preconditioning
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_coarse_) 4 MPI processes
>>>>>>> type: bjacobi
>>>>>>> block Jacobi: number of blocks = 4
>>>>>>> Local solve info for each block is in the following KSP and PC objects:
>>>>>>> [0] number of local blocks = 1, first local block number = 0
>>>>>>> [0] local block number 0
>>>>>>> KSP Object: (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: preonly
>>>>>>> maximum iterations=1, initial guess is zero
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> KSP Object: (mg_coarse_sub_) left preconditioning
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: preonly
>>>>>>> 1 MPI processes
>>>>>>> type: lu
>>>>>>> maximum iterations=1, initial guess is zero
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> LU: out-of-place factorization
>>>>>>> left preconditioning
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: lu
>>>>>>> tolerance for zero pivot 2.22045e-14
>>>>>>> using diagonal shift on blocks to prevent zero pivot
>>>>>>> matrix ordering: nd
>>>>>>> LU: out-of-place factorization
>>>>>>> tolerance for zero pivot 2.22045e-14
>>>>>>> using diagonal shift on blocks to prevent zero pivot
>>>>>>> matrix ordering: nd
>>>>>>> factor fill ratio given 5, needed 0
>>>>>>> Factored matrix follows:
>>>>>>> factor fill ratio given 5, needed 4.13207
>>>>>>> Factored matrix follows:
>>>>>>> Matrix Object: Matrix Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> rows=395, cols=395
>>>>>>> package used to perform factorization: petsc
>>>>>>> total: nonzeros=132379, allocated nonzeros=132379
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> linear system matrix = precond matrix:
>>>>>>> rows=0, cols=0
>>>>>>> package used to perform factorization: petsc
>>>>>>> total: nonzeros=1, allocated nonzeros=1
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> Matrix Object:KSP Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> rows=0, cols=0
>>>>>>> total: nonzeros=0, allocated nonzeros=0
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> rows=395, cols=395
>>>>>>> total: nonzeros=32037, allocated nonzeros=32037
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> - - - - - - - - - - - - - - - - - -
>>>>>>> KSP Object: (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: preonly
>>>>>>> maximum iterations=1, initial guess is zero
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> left preconditioning
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: lu
>>>>>>> LU: out-of-place factorization
>>>>>>> tolerance for zero pivot 2.22045e-14
>>>>>>> using diagonal shift on blocks to prevent zero pivot
>>>>>>> matrix ordering: nd
>>>>>>> factor fill ratio given 5, needed 0
>>>>>>> Factored matrix follows:
>>>>>>> Matrix Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> rows=0, cols=0
>>>>>>> package used to perform factorization: petsc
>>>>>>> total: nonzeros=1, allocated nonzeros=1
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> rows=0, cols=0
>>>>>>> total: nonzeros=0, allocated nonzeros=0
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: preonly
>>>>>>> maximum iterations=1, initial guess is zero
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> left preconditioning
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_coarse_sub_) 1 MPI processes
>>>>>>> type: lu
>>>>>>> LU: out-of-place factorization
>>>>>>> tolerance for zero pivot 2.22045e-14
>>>>>>> using diagonal shift on blocks to prevent zero pivot
>>>>>>> matrix ordering: nd
>>>>>>> factor fill ratio given 5, needed 0
>>>>>>> Factored matrix follows:
>>>>>>> Matrix Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> rows=0, cols=0
>>>>>>> package used to perform factorization: petsc
>>>>>>> total: nonzeros=1, allocated nonzeros=1
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 1 MPI processes
>>>>>>> type: seqaij
>>>>>>> rows=0, cols=0
>>>>>>> total: nonzeros=0, allocated nonzeros=0
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node routines
>>>>>>> [1] number of local blocks = 1, first local block number = 1
>>>>>>> [1] local block number 0
>>>>>>> - - - - - - - - - - - - - - - - - -
>>>>>>> [2] number of local blocks = 1, first local block number = 2
>>>>>>> [2] local block number 0
>>>>>>> - - - - - - - - - - - - - - - - - -
>>>>>>> [3] number of local blocks = 1, first local block number = 3
>>>>>>> [3] local block number 0
>>>>>>> - - - - - - - - - - - - - - - - - -
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 4 MPI processes
>>>>>>> type: mpiaij
>>>>>>> rows=395, cols=395
>>>>>>> total: nonzeros=32037, allocated nonzeros=32037
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node (on process 0) routines
>>>>>>> Down solver (pre-smoother) on level 1 -------------------------------
>>>>>>> KSP Object: (mg_levels_1_) 4 MPI processes
>>>>>>> type: chebyshev
>>>>>>> Chebyshev: eigenvalue estimates: min = 0.0636225, max = 1.33607
>>>>>>> maximum iterations=2
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> left preconditioning
>>>>>>> using nonzero initial guess
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_levels_1_) 4 MPI processes
>>>>>>> type: jacobi
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 4 MPI processes
>>>>>>> type: mpiaij
>>>>>>> rows=23918, cols=23918
>>>>>>> total: nonzeros=818732, allocated nonzeros=818732
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> not using I-node (on process 0) routines
>>>>>>> Up solver (post-smoother) same as down solver (pre-smoother)
>>>>>>> Down solver (pre-smoother) on level 2 -------------------------------
>>>>>>> KSP Object: (mg_levels_2_) 4 MPI processes
>>>>>>> type: chebyshev
>>>>>>> Chebyshev: eigenvalue estimates: min = 0.0971369, max = 2.03987
>>>>>>> maximum iterations=2
>>>>>>> tolerances: relative=1e-05, absolute=1e-50, divergence=10000
>>>>>>> left preconditioning
>>>>>>> using nonzero initial guess
>>>>>>> using NONE norm type for convergence test
>>>>>>> PC Object: (mg_levels_2_) 4 MPI processes
>>>>>>> type: jacobi
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 4 MPI processes
>>>>>>> type: mpiaij
>>>>>>> rows=262144, cols=262144
>>>>>>> total: nonzeros=1835008, allocated nonzeros=1835008
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> Up solver (post-smoother) same as down solver (pre-smoother)
>>>>>>> linear system matrix = precond matrix:
>>>>>>> Matrix Object: 4 MPI processes
>>>>>>> type: mpiaij
>>>>>>> rows=262144, cols=262144
>>>>>>> total: nonzeros=1835008, allocated nonzeros=1835008
>>>>>>> total number of mallocs used during MatSetValues calls =0
>>>>>>> #PETSc Option Table entries:
>>>>>>> -ksp_view
>>>>>>> -options_left
>>>>>>> -pc_gamg_agg_nsmooths 1
>>>>>>> -pc_type gamg
>>>>>>> #End of PETSc Option Table entries
>>>>>>> There are no unused options.
>>>>>>>
>>>>>>>
>>>>>>> Thank you,
>>>>>>> Michele
>>>>>>>
>>>>>>>
>>
>
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