[petsc-users] negative grid complexity in GAMG

Mark Lohry mlohry at gmail.com
Thu Oct 17 05:21:08 CDT 2019


Hi Mark,

I assume these are advection problems and smoothed aggregation does not
> work well.
>

Correct, it stagnates immediately with smoothed aggregation.


I think '-pc_gamg_square_graph 20' should reduce the number of levels and
> work better for you.
>

On the big problem it's producing 20 levels without -pc_gamg_square_graph
20; with that on it produces 6 levels. It certainly has less of the
near-identical-size coarse levels, but overall convergence time is roughly
the same. Any suggestion of where to go from here?



Original setup without pc_gamg_square_graph 20:

[0] PCSetUp_GAMG(): level 0) N=347149550, n data rows=5, n data cols=5,
nnz/row (ave)=250, np=1920
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 50.
nnz ave. (N=69429910)
[0] PCGAMGCoarsen_AGG(): Square Graph on level 1 of 1 to square
[0] PCGAMGProlongator_AGG(): New grid 894786 nodes
[0] PCSetUp_GAMG(): 1) N=4473930, n data cols=5, nnz/row (ave)=51, 1920
active pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
10.1761 nnz ave. (N=894786)
[0] PCGAMGProlongator_AGG(): New grid 184262 nodes
[0] PCSetUp_GAMG(): 2) N=921310, n data cols=5, nnz/row (ave)=68, 1920
active pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
13.0556 nnz ave. (N=184262)
[0] PCGAMGProlongator_AGG(): New grid 41002 nodes
[0] PCSetUp_GAMG(): 3) N=205010, n data cols=5, nnz/row (ave)=72, 1920
active pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
10.0909 nnz ave. (N=41002)
[0] PCGAMGProlongator_AGG(): New grid 12587 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 20 with simple
aggregation
[0] PCSetUp_GAMG(): 4) N=62935, n data cols=5, nnz/row (ave)=62, 960 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
5.33333 nnz ave. (N=12587)
[0] PCGAMGProlongator_AGG(): New grid 5811 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 40 with simple
aggregation
[0] PCSetUp_GAMG(): 5) N=29055, n data cols=5, nnz/row (ave)=50, 640 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 3.8
nnz ave. (N=5811)
[0] PCGAMGProlongator_AGG(): New grid 3442 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 110 with simple
aggregation
[0] PCSetUp_GAMG(): 6) N=17210, n data cols=5, nnz/row (ave)=40, 320 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
4.66176 nnz ave. (N=3442)
[0] PCGAMGProlongator_AGG(): New grid 2365 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 275 with simple
aggregation
[0] PCSetUp_GAMG(): 7) N=11825, n data cols=5, nnz/row (ave)=34, 240 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
4.961 nnz ave. (N=2365)
[0] PCGAMGProlongator_AGG(): New grid 1792 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 1125 with simple
aggregation
[0] PCSetUp_GAMG(): 8) N=8960, n data cols=5, nnz/row (ave)=28, 192 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
5.79911 nnz ave. (N=1792)
[0] PCGAMGProlongator_AGG(): New grid 1479 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 7395 with simple
aggregation
[0] PCSetUp_GAMG(): 9) N=7395, n data cols=5, nnz/row (ave)=24, 160 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
4.86883 nnz ave. (N=1479)
[0] PCGAMGProlongator_AGG(): New grid 1378 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 6890 with simple
aggregation
[0] PCSetUp_GAMG(): 10) N=6890, n data cols=5, nnz/row (ave)=22, 128 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
4.44702 nnz ave. (N=1378)
[0] PCGAMGProlongator_AGG(): New grid 1210 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 6050 with simple
aggregation
[0] PCSetUp_GAMG(): 11) N=6050, n data cols=5, nnz/row (ave)=18, 120 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.64298 nnz ave. (N=1210)
[0] PCGAMGProlongator_AGG(): New grid 1185 nodes
[0] PCGAMGCreateLevel_GAMG(): Aggregate processors noop: new_size=120,
neq(loc)=5925
[0] PCSetUp_GAMG(): 12) N=5925, n data cols=5, nnz/row (ave)=17, 120 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.54177 nnz ave. (N=1185)
[0] PCGAMGProlongator_AGG(): New grid 1165 nodes
[0] PCGAMGCreateLevel_GAMG(): Aggregate processors noop: new_size=120,
neq(loc)=5825
[0] PCSetUp_GAMG(): 13) N=5825, n data cols=5, nnz/row (ave)=17, 120 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.5133 nnz ave. (N=1165)
[0] PCGAMGProlongator_AGG(): New grid 1137 nodes
[0] PCGAMGCreateLevel_GAMG(): Aggregate processors noop: new_size=120,
neq(loc)=5685
[0] PCSetUp_GAMG(): 14) N=5685, n data cols=5, nnz/row (ave)=17, 120 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.48021 nnz ave. (N=1137)
[0] PCGAMGProlongator_AGG(): New grid 1097 nodes
[0] PCGAMGCreateLevel_GAMG(): Aggregate processors noop: new_size=120,
neq(loc)=5485
[0] PCSetUp_GAMG(): 15) N=5485, n data cols=5, nnz/row (ave)=16, 120 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.3938 nnz ave. (N=1097)
[0] PCGAMGProlongator_AGG(): New grid 1088 nodes
[0] PCGAMGCreateLevel_GAMG(): Aggregate processors noop: new_size=120,
neq(loc)=5440
[0] PCSetUp_GAMG(): 16) N=5440, n data cols=5, nnz/row (ave)=16, 120 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.34375 nnz ave. (N=1088)
[0] PCGAMGProlongator_AGG(): New grid 852 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 4260 with simple
aggregation
[0] PCSetUp_GAMG(): 17) N=4260, n data cols=5, nnz/row (ave)=15, 80 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.06103 nnz ave. (N=852)
[0] PCGAMGProlongator_AGG(): New grid 848 nodes
[0] PCSetUp_GAMG(): 18) N=4240, n data cols=5, nnz/row (ave)=15, 80 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
3.0566 nnz ave. (N=848)
[0] PCGAMGProlongator_AGG(): New grid 3 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 15 with simple
aggregation
[0] PCSetUp_GAMG(): 19) N=15, n data cols=5, nnz/row (ave)=11, 1 active pes
[0] PCSetUp_GAMG(): 20 levels, grid complexity = 1.00367

With pc_gamg_square_graph 20:


[0] PCSetUp_GAMG(): level 0) N=347149550, n data rows=5, n data cols=5,
nnz/row (ave)=250, np=1920
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 50.
nnz ave. (N=69429910)
[0] PCGAMGCoarsen_AGG(): Square Graph on level 1 of 20 to square
[0] PCGAMGProlongator_AGG(): New grid 894786 nodes
[0] PCSetUp_GAMG(): 1) N=4473930, n data cols=5, nnz/row (ave)=51, 1920
active pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
10.1761 nnz ave. (N=894786)
[0] PCGAMGCoarsen_AGG(): Square Graph on level 2 of 20 to square
[0] PCGAMGProlongator_AGG(): New grid 49106 nodes
[0] PCSetUp_GAMG(): 2) N=245530, n data cols=5, nnz/row (ave)=80, 1920
active pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 14.8
nnz ave. (N=49106)
[0] PCGAMGCoarsen_AGG(): Square Graph on level 3 of 20 to square
[0] PCGAMGProlongator_AGG(): New grid 1646 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 0 with simple
aggregation
[0] PCSetUp_GAMG(): 3) N=8230, n data cols=5, nnz/row (ave)=86, 160 active
pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 11.5
nnz ave. (N=1646)
[0] PCGAMGCoarsen_AGG(): Square Graph on level 4 of 20 to square
[0] PCGAMGProlongator_AGG(): New grid 56 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 0 with simple
aggregation
[0] PCSetUp_GAMG(): 4) N=280, n data cols=5, nnz/row (ave)=62, 6 active pes
[0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
12.5714 nnz ave. (N=56)
[0] PCGAMGCoarsen_AGG(): Square Graph on level 5 of 20 to square
[0] PCGAMGProlongator_AGG(): New grid 4 nodes
[0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 20 with simple
aggregation
[0] PCSetUp_GAMG(): 5) N=20, n data cols=5, nnz/row (ave)=17, 1 active pes
[0] PCSetUp_GAMG(): 6 levels, grid complexity = 1.00291

On Wed, Oct 16, 2019 at 9:46 PM Mark Adams <mfadams at lbl.gov> wrote:

> The block size refers to the number of dofs/vertex, so you want 5. (I have
> no idea what is going on with block size set to 20).
>
> This is better but also smaller. 10 levels is a lot a levels.
>
> This is unsmoothed aggregation. I assume these are advection problems and
> smoothed aggregation does not work well. This is not in my wheelhouse. I
> think '-pc_gamg_square_graph 20' should reduce the number of levels and
> work better for you.
>
> Thanks,
> Mark
>
> On Wed, Oct 16, 2019 at 8:59 PM Mark Lohry <mlohry at gmail.com> wrote:
>
>> Hi Mark, are you referring to how on the coarser levels the coarsening
>> rate seems to nearly flatline? i.e. level 2 has 4,260 rows while level 1
>> has 4,240 rows? I was curious about that too...
>>
>> Not sure if this is the cause, but I have gone back and forth on what
>> blocksize I set; I'm doing high order elements with 5 coupled equations, so
>> the true block size in that case is 50x50. For that I had played with
>> setting block size to either 5 (number of equations) or 50 (actual block
>> size) and seemed to have seen a meager 20% improvement with the block size
>> at 5, so I kind of left it there.
>>
>> Running a much smaller variant of the same problem at lower order (block
>> size 20 instead of 50), the -info grep you asked for is below. I'll get
>> -info for the much larger case but it'll take a couple days.
>>
>> For options I'm running
>> -snes_lag_jacobian 10000 -ksp_gmres_restart 100 -pc_gamg_agg_nsmooths 0
>> -mg_levels_ksp_type richardson -mg_levels_pc_type asm -mg_levels_ksp_max_it
>> 1
>> -pc_mg_cycle_type v -snes_linesearch_type bt -snes_linesearch_order 3
>> -snes_linesearch_monitor -mg_levels_sub_pc_factor_in_place true -info
>>
>>
>> block size 5 :
>>
>> [0] PCSetUp_GAMG(): level 0) N=2006480, n data rows=5, n data cols=5,
>> nnz/row (ave)=100, np=16
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 20. nnz ave. (N=401296)
>> [0] PCGAMGCoarsen_AGG(): Square Graph on level 1 of 1 to square
>> [0] PCGAMGProlongator_AGG(): New grid 12947 nodes
>> [0] PCSetUp_GAMG(): 1) N=64735, n data cols=5, nnz/row (ave)=51, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 10.3351 nnz ave. (N=12947)
>> [0] PCGAMGProlongator_AGG(): New grid 2671 nodes
>> [0] PCSetUp_GAMG(): 2) N=13355, n data cols=5, nnz/row (ave)=66, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 12.5524 nnz ave. (N=2671)
>> [0] PCGAMGProlongator_AGG(): New grid 598 nodes
>> [0] PCSetUp_GAMG(): 3) N=2990, n data cols=5, nnz/row (ave)=65, 16 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 12.7727 nnz ave. (N=598)
>> [0] PCGAMGProlongator_AGG(): New grid 178 nodes
>> [0] PCSetUp_GAMG(): 4) N=890, n data cols=5, nnz/row (ave)=52, 16 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 8.28571 nnz ave. (N=178)
>> [0] PCGAMGProlongator_AGG(): New grid 80 nodes
>> [0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 30 with simple
>> aggregation
>> [0] PCSetUp_GAMG(): 5) N=400, n data cols=5, nnz/row (ave)=34, 8 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 5.77778 nnz ave. (N=80)
>> [0] PCGAMGProlongator_AGG(): New grid 50 nodes
>> [0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 30 with simple
>> aggregation
>> [0] PCSetUp_GAMG(): 6) N=250, n data cols=5, nnz/row (ave)=25, 4 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 4.76923 nnz ave. (N=50)
>> [0] PCGAMGProlongator_AGG(): New grid 36 nodes
>> [0] PCSetUp_GAMG(): 7) N=180, n data cols=5, nnz/row (ave)=18, 4 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 3.75 nnz ave. (N=36)
>> [0] PCGAMGProlongator_AGG(): New grid 33 nodes
>> [0] PCGAMGCreateLevel_GAMG(): Aggregate processors noop: new_size=4,
>> neq(loc)=90
>> [0] PCSetUp_GAMG(): 8) N=165, n data cols=5, nnz/row (ave)=18, 4 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 3.72222 nnz ave. (N=33)
>> [0] PCGAMGProlongator_AGG(): New grid 8 nodes
>> [0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 35 with simple
>> aggregation
>> [0] PCSetUp_GAMG(): 9) N=40, n data cols=5, nnz/row (ave)=15, 1 active pes
>> [0] PCSetUp_GAMG(): 10 levels, grid complexity = 1.02237
>>
>>
>>
>> block size 20:
>>
>> [0] PCSetUp_GAMG(): level 0) N=2006480, n data rows=20, n data cols=20,
>> nnz/row (ave)=100, np=16
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 5.
>> nnz ave. (N=100324)
>> [0] PCGAMGCoarsen_AGG(): Square Graph on level 1 of 1 to square
>> [0] PCGAMGProlongator_AGG(): New grid 12948 nodes
>> [0] PCSetUp_GAMG(): 1) N=258960, n data cols=20, nnz/row (ave)=205, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 10.2857 nnz ave. (N=12948)
>> [0] PCGAMGProlongator_AGG(): New grid 2671 nodes
>> [0] PCSetUp_GAMG(): 2) N=53420, n data cols=20, nnz/row (ave)=266, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 12.5548 nnz ave. (N=2671)
>> [0] PCGAMGProlongator_AGG(): New grid 593 nodes
>> [0] PCSetUp_GAMG(): 3) N=11860, n data cols=20, nnz/row (ave)=264, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 10.8519 nnz ave. (N=593)
>> [0] PCGAMGProlongator_AGG(): New grid 181 nodes
>> [0] PCSetUp_GAMG(): 4) N=3620, n data cols=20, nnz/row (ave)=214, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 8.375 nnz ave. (N=181)
>> [0] PCGAMGProlongator_AGG(): New grid 79 nodes
>> [0] PCSetUp_GAMG(): 5) N=1580, n data cols=20, nnz/row (ave)=164, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 8.
>> nnz ave. (N=79)
>> [0] PCGAMGProlongator_AGG(): New grid 43 nodes
>> [0] PCSetUp_GAMG(): 6) N=860, n data cols=20, nnz/row (ave)=100, 16
>> active pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0., 5.
>> nnz ave. (N=43)
>> [0] PCGAMGProlongator_AGG(): New grid 15 nodes
>> [0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 20 with simple
>> aggregation
>> [0] PCSetUp_GAMG(): 7) N=300, n data cols=20, nnz/row (ave)=81, 8 active
>> pes
>> [0] PCGAMGFilterGraph(): 100.% nnz after filtering, with threshold 0.,
>> 2.66667 nnz ave. (N=15)
>> [0] PCGAMGProlongator_AGG(): New grid 1 nodes
>> [0] PCGAMGCreateLevel_GAMG(): Number of equations (loc) 0 with simple
>> aggregation
>> [0] PCSetUp_GAMG(): 8) N=20, n data cols=20, nnz/row (ave)=20, 1 active
>> pes
>> [0] PCSetUp_GAMG(): HARD stop of coarsening on level 7.  Grid too small:
>> 1 block nodes
>> [0] PCSetUp_GAMG(): 9 levels, grid complexity = 1.35745
>>
>> On Wed, Oct 16, 2019 at 5:12 PM Mark Adams <mfadams at lbl.gov> wrote:
>>
>>> Thanks Barry,
>>> Sorry I missed this.
>>> Mark: this problem is going crazy. The (default) coarsening parameters
>>> are terrible for you. Can run with -info, grep for GAMG and send that? And
>>> please send me the gamg parameters that you are using.
>>> Thanks,
>>> Mark
>>>
>>> On Wed, Oct 16, 2019 at 9:01 AM Smith, Barry F. via petsc-users <
>>> petsc-users at mcs.anl.gov> wrote:
>>>
>>>>
>>>> barry/2019-10-15/bug-gamg-complexity/maint
>>>> https://gitlab.com/petsc/petsc/merge_requests/2179
>>>>
>>>>
>>>>
>>>> > On Oct 16, 2019, at 5:29 AM, Mark Lohry <mlohry at gmail.com> wrote:
>>>> >
>>>> > Well that was a quick late night bug fix. Thanks Barry, I'll try it
>>>> out.
>>>> >
>>>> > Just to confirm: You are running with with default double precision
>>>> numbers and have used the configure option --with-64-bit-indices ?
>>>> >
>>>> > Double precision floats, but 32 bit indices. I realize I'm playing
>>>> with fire here, but I'm bumping very close to available memory limits at
>>>> this scale and 64 bit indices tips me over. I figure integer index
>>>> overflows would probably show a catastrophic failure, but all output looks
>>>> sane.
>>>> >
>>>> > I see you are using MATMFFD as the operator and MPIAIJ as the matrix
>>>> from which to build the preconditioner? This is not suppose to cause any
>>>> difficulties since the complexity computation code uses the second matrix,
>>>> that is the MPAIJ matrix to get the complexity information.
>>>> >
>>>> > Right, I'm using MATMFFD for the operator, and using a
>>>> snes_lag_jacobian with SNESComputeJacobianDefaultColor for the matrix used
>>>> to build to preconditioner. The actual behavior is exactly what I'd expect
>>>> from smaller runs and the results look good, so it sounds like what you
>>>> describe.
>>>> >
>>>> > On Wed, Oct 16, 2019 at 12:17 AM Smith, Barry F. <bsmith at mcs.anl.gov>
>>>> wrote:
>>>> >
>>>> >    I think I now see the bug: the code uses PetscInt       lev, nnz0
>>>> = -1; which will overflow. It should be using PetscLogDouble for nnz0
>>>> >
>>>> >   You can try changing that one place in the code and see that it now
>>>> prints a reasonable value for complexity.
>>>> >
>>>> >   I will prepare a MR for maint to fix the bug permanently.
>>>> >
>>>> >   Barry
>>>> >
>>>> >
>>>> > static PetscErrorCode PCMGGetGridComplexity(PC pc, PetscReal *gc)
>>>> > {
>>>> >   PetscErrorCode ierr;
>>>> >   PC_MG          *mg      = (PC_MG*)pc->data;
>>>> >   PC_MG_Levels   **mglevels = mg->levels;
>>>> >   PetscInt       lev, nnz0 = -1;
>>>> >   MatInfo        info;
>>>> >   PetscFunctionBegin;
>>>> >   if (!mg->nlevels) SETERRQ(PETSC_COMM_SELF,PETSC_ERR_PLIB,"MG has no
>>>> levels");
>>>> >   for (lev=0, *gc=0; lev<mg->nlevels; lev++) {
>>>> >     Mat dB;
>>>> >     ierr =
>>>> KSPGetOperators(mglevels[lev]->smoothd,NULL,&dB);CHKERRQ(ierr);
>>>> >     ierr = MatGetInfo(dB,MAT_GLOBAL_SUM,&info);CHKERRQ(ierr); /*
>>>> global reduction */
>>>> >     *gc += (PetscReal)info.nz_used;
>>>> >     if (lev==mg->nlevels-1) nnz0 = info.nz_used;
>>>> >   }
>>>> >   if (nnz0) *gc /= (PetscReal)nnz0;
>>>> >   else *gc = 0;
>>>> >   PetscFunctionReturn(0);
>>>> > }
>>>> >
>>>> >
>>>> >
>>>> > > On Oct 15, 2019, at 11:11 PM, Smith, Barry F. <bsmith at mcs.anl.gov>
>>>> wrote:
>>>> > >
>>>> > >
>>>> > >   Mark,
>>>> > >
>>>> > >   It may be caused by some overflow in the calculations somewhere
>>>> due to your very large sizes and nonzeros but I could not see anything
>>>> based on a quick inspection of the code. We seem to use double to store the
>>>> counts which normally would be more than sufficient to hold the results
>>>> without overflow. Unless somewhere there is a mistaken use of int that
>>>> causes a problem.
>>>> > >
>>>> > >   Just to confirm: You are running with with default double
>>>> precision numbers and have used the configure option --with-64-bit-indices
>>>> ?
>>>> > >
>>>> > >   I see you are using MATMFFD as the operator and MPIAIJ as the
>>>> matrix from which to build the preconditioner? This is not suppose to cause
>>>> any difficulties since the complexity computation code uses the second
>>>> matrix, that is the MPAIJ matrix to get the complexity information.
>>>> > >
>>>> > >   There is definitely a bug but I am hard pressed to suggest how to
>>>> find it since it seems only to be expressed in your giant runs.
>>>> > >
>>>> > >  Barry
>>>> > >
>>>> > >
>>>> > >
>>>> > >
>>>> > >
>>>> > >> On Oct 15, 2019, at 9:16 PM, Mark Lohry via petsc-users <
>>>> petsc-users at mcs.anl.gov> wrote:
>>>> > >>
>>>> > >> I'm running some larger unsteady problems and trying to eek out
>>>> some better GAMG performance. As is, at very small time steps, ASM
>>>> preconditioner with ILU(0) is maybe 20% more efficient than my naive GAMG
>>>> setup, which gives me hope that some tuning of GAMG can give some
>>>> advantage. Convergence overall seems quite good, and light years better
>>>> than ASM/ILU at larger time steps.
>>>> > >>
>>>> > >> So looking through the manual and see a note that "grid complexity
>>>> should be well under 2.0 and preferably around 1.3 or lower". I check
>>>> ksp_view and see:
>>>> > >> Complexity:    grid = -40.5483
>>>> > >>
>>>> > >> Is something funny happening here?
>>>> > >>
>>>> > >> Pasting whole -ksp_view below:
>>>> > >>
>>>> > >> KSP Object: 1920 MPI processes
>>>> > >>  type: fgmres
>>>> > >>    restart=100, using Classical (unmodified) Gram-Schmidt
>>>> Orthogonalization with no iterative refinement
>>>> > >>    happy breakdown tolerance 1e-30
>>>> > >>  maximum iterations=30, initial guess is zero
>>>> > >>  tolerances:  relative=0.0001, absolute=1e-06, divergence=10.
>>>> > >>  right preconditioning
>>>> > >>  using UNPRECONDITIONED norm type for convergence test
>>>> > >> PC Object: 1920 MPI processes
>>>> > >>  type: gamg
>>>> > >>    type is MULTIPLICATIVE, levels=20 cycles=v
>>>> > >>      Cycles per PCApply=1
>>>> > >>      Using externally compute Galerkin coarse grid matrices
>>>> > >>      GAMG specific options
>>>> > >>        Threshold for dropping small values in graph on each level
>>>> =   0.   0.   0.   0.   0.   0.   0.   0.   0.   0.   0.   0.   0.   0.
>>>>  0.   0.   0.   0.
>>>> > >>        Threshold scaling factor for each level not specified = 1.
>>>> > >>        AGG specific options
>>>> > >>          Symmetric graph false
>>>> > >>          Number of levels to square graph 1
>>>> > >>          Number smoothing steps 0
>>>> > >>        Complexity:    grid = -40.5483
>>>> > >>  Coarse grid solver -- level -------------------------------
>>>> > >>    KSP Object: (mg_coarse_) 1920 MPI processes
>>>> > >>      type: preonly
>>>> > >>      maximum iterations=10000, 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_) 1920 MPI processes
>>>> > >>      type: bjacobi
>>>> > >>        number of blocks = 1920
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      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
>>>> > >>          out-of-place factorization
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          using diagonal shift on blocks to prevent zero pivot
>>>> [INBLOCKS]
>>>> > >>          matrix ordering: nd
>>>> > >>          factor fill ratio given 5., needed 1.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=15, cols=15, bs=5
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=175, allocated nonzeros=175
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 3 nodes, limit used
>>>> is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=15, cols=15, bs=5
>>>> > >>          total: nonzeros=175, allocated nonzeros=175
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 3 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=15, cols=15, bs=5
>>>> > >>        total: nonzeros=175, allocated nonzeros=175
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 3 nodes,
>>>> limit used is 5
>>>> > >>  Down solver (pre-smoother) on level 1
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_1_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_1_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_1_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_1_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=4240, cols=4240
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=64800, allocated nonzeros=64800
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 848 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=4240, cols=4240
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=64800, allocated nonzeros=64800
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 848 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=4240, cols=4240, bs=5
>>>> > >>        total: nonzeros=64800, allocated nonzeros=64800
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 848 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 2
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_2_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_2_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_2_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_2_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=4260, cols=4260
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=65200, allocated nonzeros=65200
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 852 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=4260, cols=4260
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=65200, allocated nonzeros=65200
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 852 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=4260, cols=4260, bs=5
>>>> > >>        total: nonzeros=65200, allocated nonzeros=65200
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 852 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 3
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_3_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_3_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_3_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_3_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=5440, cols=5440
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=90950, allocated nonzeros=90950
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1088 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=5440, cols=5440
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=90950, allocated nonzeros=90950
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1088 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=5440, cols=5440, bs=5
>>>> > >>        total: nonzeros=90950, allocated nonzeros=90950
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 1088 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 4
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_4_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_4_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_4_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_4_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=5485, cols=5485
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=93075, allocated nonzeros=93075
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1097 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=5485, cols=5485
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=93075, allocated nonzeros=93075
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1097 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=5485, cols=5485, bs=5
>>>> > >>        total: nonzeros=93075, allocated nonzeros=93075
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 1097 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 5
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_5_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_5_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_5_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_5_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=5685, cols=5685
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=98925, allocated nonzeros=98925
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1137 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=5685, cols=5685
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=98925, allocated nonzeros=98925
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1137 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=5685, cols=5685, bs=5
>>>> > >>        total: nonzeros=98925, allocated nonzeros=98925
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 1137 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 6
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_6_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_6_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_6_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_6_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=5825, cols=5825
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=102325, allocated nonzeros=102325
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1165 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=5825, cols=5825
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=102325, allocated nonzeros=102325
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1165 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=5825, cols=5825, bs=5
>>>> > >>        total: nonzeros=102325, allocated nonzeros=102325
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 1165 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 7
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_7_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_7_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_7_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_7_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=5925, cols=5925
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=104925, allocated nonzeros=104925
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1185 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=5925, cols=5925
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=104925, allocated nonzeros=104925
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1185 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=5925, cols=5925, bs=5
>>>> > >>        total: nonzeros=104925, allocated nonzeros=104925
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 1185 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 8
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_8_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_8_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_8_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_8_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=6050, cols=6050
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=110200, allocated nonzeros=110200
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1210 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=6050, cols=6050
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=110200, allocated nonzeros=110200
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1210 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=6050, cols=6050, bs=5
>>>> > >>        total: nonzeros=110200, allocated nonzeros=110200
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 1210 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 9
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_9_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_9_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_9_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_9_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=6890, cols=6890
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=153200, allocated nonzeros=153200
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1378 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=6890, cols=6890
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=153200, allocated nonzeros=153200
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1378 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=6890, cols=6890, bs=5
>>>> > >>        total: nonzeros=153200, allocated nonzeros=153200
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 1378 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 10
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_10_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_10_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_10_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_10_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=7395, cols=7395
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=180025, allocated nonzeros=180025
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1479 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=7395, cols=7395
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=180025, allocated nonzeros=180025
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1479 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=7395, cols=7395, bs=5
>>>> > >>        total: nonzeros=180025, allocated nonzeros=180025
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 1479 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 11
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_11_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_11_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_11_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_11_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=8960, cols=8960
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=259800, allocated nonzeros=259800
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 1792 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=8960, cols=8960
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=259800, allocated nonzeros=259800
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 1792 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=8960, cols=8960, bs=5
>>>> > >>        total: nonzeros=259800, allocated nonzeros=259800
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 1792 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 12
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_12_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_12_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_12_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_12_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=1795, cols=1795
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=33275, allocated nonzeros=33275
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 359 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=1795, cols=1795
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=33275, allocated nonzeros=33275
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 359 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=11825, cols=11825, bs=5
>>>> > >>        total: nonzeros=403125, allocated nonzeros=403125
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 359 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 13
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_13_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_13_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_13_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_13_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=340, cols=340
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=3500, allocated nonzeros=3500
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 68 nodes, limit used
>>>> is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=340, cols=340
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=3500, allocated nonzeros=3500
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 68 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=17210, cols=17210, bs=5
>>>> > >>        total: nonzeros=696850, allocated nonzeros=696850
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 68 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 14
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_14_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_14_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_14_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_14_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=125, cols=125
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=625, allocated nonzeros=625
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 25 nodes, limit used
>>>> is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=125, cols=125
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=625, allocated nonzeros=625
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 25 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=29055, cols=29055, bs=5
>>>> > >>        total: nonzeros=1475675, allocated nonzeros=1475675
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 25 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 15
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_15_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_15_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_15_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_15_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=45, cols=45
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=225, allocated nonzeros=225
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 9 nodes, limit used
>>>> is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=45, cols=45
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=225, allocated nonzeros=225
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 9 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=62935, cols=62935, bs=5
>>>> > >>        total: nonzeros=3939025, allocated nonzeros=3939025
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 9 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 16
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_16_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_16_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_16_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_16_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=55, cols=55
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=725, allocated nonzeros=725
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 11 nodes, limit used
>>>> is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=55, cols=55
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=725, allocated nonzeros=725
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 11 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=205010, cols=205010, bs=5
>>>> > >>        total: nonzeros=14780300, allocated nonzeros=14780300
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using scalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 11 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 17
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_17_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_17_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_17_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_17_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=360, cols=360
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=14350, allocated nonzeros=14350
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 72 nodes, limit used
>>>> is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=360, cols=360
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=14350, allocated nonzeros=14350
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 72 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=921310, cols=921310, bs=5
>>>> > >>        total: nonzeros=63203300, allocated nonzeros=63203300
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using scalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 72 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 18
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_18_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_18_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_18_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_18_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=2130, cols=2130
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=87950, allocated nonzeros=87950
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 426 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=2130, cols=2130
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=87950, allocated nonzeros=87950
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 426 nodes, limit used is 5
>>>> > >>      linear system matrix = precond matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=4473930, cols=4473930, bs=5
>>>> > >>        total: nonzeros=232427300, allocated nonzeros=232427300
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using nonscalable MatPtAP() implementation
>>>> > >>          using I-node (on process 0) routines: found 426 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  Down solver (pre-smoother) on level 19
>>>> -------------------------------
>>>> > >>    KSP Object: (mg_levels_19_) 1920 MPI processes
>>>> > >>      type: richardson
>>>> > >>        damping factor=1.
>>>> > >>      maximum iterations=1, nonzero initial guess
>>>> > >>      tolerances:  relative=1e-05, absolute=1e-50, divergence=10000.
>>>> > >>      left preconditioning
>>>> > >>      using NONE norm type for convergence test
>>>> > >>    PC Object: (mg_levels_19_) 1920 MPI processes
>>>> > >>      type: asm
>>>> > >>        total subdomain blocks = 1920, amount of overlap = 0
>>>> > >>        restriction/interpolation type - RESTRICT
>>>> > >>        Local solve is same for all blocks, in the following KSP
>>>> and PC objects:
>>>> > >>      KSP Object: (mg_levels_19_sub_) 1 MPI processes
>>>> > >>        type: preonly
>>>> > >>        maximum iterations=10000, 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_19_sub_) 1 MPI processes
>>>> > >>        type: ilu
>>>> > >>          in-place factorization
>>>> > >>          0 levels of fill
>>>> > >>          tolerance for zero pivot 2.22045e-14
>>>> > >>          matrix ordering: natural
>>>> > >>          factor fill ratio given 0., needed 0.
>>>> > >>            Factored matrix follows:
>>>> > >>              Mat Object: 1 MPI processes
>>>> > >>                type: seqaij
>>>> > >>                rows=179050, cols=179050
>>>> > >>                package used to perform factorization: petsc
>>>> > >>                total: nonzeros=42562500, allocated
>>>> nonzeros=42562500
>>>> > >>                total number of mallocs used during MatSetValues
>>>> calls =0
>>>> > >>                  using I-node routines: found 35810 nodes, limit
>>>> used is 5
>>>> > >>        linear system matrix = precond matrix:
>>>> > >>        Mat Object: 1 MPI processes
>>>> > >>          type: seqaij
>>>> > >>          rows=179050, cols=179050
>>>> > >>          package used to perform factorization: petsc
>>>> > >>          total: nonzeros=42562500, allocated nonzeros=42562500
>>>> > >>          total number of mallocs used during MatSetValues calls =0
>>>> > >>            using I-node routines: found 35810 nodes, limit used is
>>>> 5
>>>> > >>      linear system matrix followed by preconditioner matrix:
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mffd
>>>> > >>        rows=347149550, cols=347149550
>>>> > >>          Matrix-free approximation:
>>>> > >>            err=1.49012e-08 (relative error in function evaluation)
>>>> > >>            Using wp compute h routine
>>>> > >>                Does not compute normU
>>>> > >>      Mat Object: 1920 MPI processes
>>>> > >>        type: mpiaij
>>>> > >>        rows=347149550, cols=347149550, bs=5
>>>> > >>        total: nonzeros=86758607500, allocated nonzeros=86758607500
>>>> > >>        total number of mallocs used during MatSetValues calls =0
>>>> > >>          using I-node (on process 0) routines: found 35810 nodes,
>>>> limit used is 5
>>>> > >>  Up solver (post-smoother) same as down solver (pre-smoother)
>>>> > >>  linear system matrix followed by preconditioner matrix:
>>>> > >>  Mat Object: 1920 MPI processes
>>>> > >>    type: mffd
>>>> > >>    rows=347149550, cols=347149550
>>>> > >>      Matrix-free approximation:
>>>> > >>        err=1.49012e-08 (relative error in function evaluation)
>>>> > >>        Using wp compute h routine
>>>> > >>            Does not compute normU
>>>> > >>  Mat Object: 1920 MPI processes
>>>> > >>    type: mpiaij
>>>> > >>    rows=347149550, cols=347149550, bs=5
>>>> > >>    total: nonzeros=86758607500, allocated nonzeros=86758607500
>>>> > >>    total number of mallocs used during MatSetValues calls =0
>>>> > >>      using I-node (on process 0) routines: found 35810 nodes,
>>>> limit used is 5
>>>> > >>        Line search: Using full step: fnorm 2.025875581923e+03
>>>> gnorm 2.801672254495e+00
>>>> > >>    1 SNES Function norm 2.801672254495e+00
>>>> > >
>>>> >
>>>>
>>>>
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