[petsc-dev] Seeking Advice on Petsc Preconditioners to Try

[Dave Nystrom]

Hi Mark,

I would like to try GAMG on some of my linear solves.  Could you suggest how
to get started?  Is it more complicated than something like:

-ksp_type cg -pc_type gamg

I'm guessing I should first try it on one of my easier linear solves.  I have
5 of them that would have a block size of 1.  Are the other GAMG option
defaults good to start with or should I be trying to configure them as well?
If so, I'm not familiar enough with multigrid to know off hand how to do
that.

Thanks,

Dave

Mark F. Adams writes:
 > 
 > On Dec 2, 2011, at 6:06 PM, Dave Nystrom wrote:
 > 
 > > Mark F. Adams writes:
 > >> It sounds like you have a symmetric positive definite systems like du/dt -
 > >> div(alpha(x) grad)u.  The du/dt term makes the systems easier to solve.
 > >> I'm guessing your hard system does not have this mass term and so is
 > >> purely elliptic.  Multigrid is well suited for this type of problem, but
 > >> the vector nature requires some thought.  You could use PETSc AMG -pc_type
 > >> gamg but you need to tell it that you have a system of two dof/vertex.
 > >> You can do that with something like:
 > >> 
 > >> ierr = MatSetBlockSize( mat, 2 );      CHKERRQ(ierr);
 > >> 
 > >> For the best results from GAMG you need to give it null space information
 > >> but we can worry about that later.
 > > 
 > > Hi Mark,
 > > 
 > > I have been interested in trying some of the multigrid capabilities in
 > > petsc.  I'm not sure I remember seeing GAMG so I guess I should go look for
 > > that.  
 > 
 > GAMG is pretty new.
 > 
 > > I have tried sacusp and sacusppoly but did not get good results on
 > > this particular linear system.  
 > > In particular, sacusppoly seems broken.  I
 > > can't get it to work even with the petsc src/ksp/ksp/examples/tutorials/ex2.c
 > > example.  Thrust complains about an invalid device pointer I believe.
 > > Anyway, I can get the other preconditioners to work just fine on this petsc
 > > example problem.  When I try sacusp on this matrix for the case of generating
 > > a rhs from a known solution vector, the computed solution seems to diverge
 > > from the exact solution.  We also have an interface to an external agmg
 > > package which is not able to solve this problem
 > > but works well on the other 5
 > > linear solves.  So I'd like to try more from the multigrid toolbox but do not
 > > know much about how to supply the extra stuff that these packages often need.
 > > 
 > > So, it sounds like you are suggesting that I try gamg and that I could at
 > > least try it out without having to initially supply lots of additional info.
 > > So I will take a look at gamg.
 > > 
 > 
 > There are many things that can break a solver but most probably want to know that its a system so if you can set the block size and try gamg then that would be a good start.
 > 
 > Mark
 > 
 > > Thanks,
 > > 
 > > Dave
 > > 
 > >> Mark
 > >> 
 > >> On Nov 30, 2011, at 8:15 AM, Matthew Knepley wrote:
 > >> 
 > >>> On Wed, Nov 30, 2011 at 12:41 AM, Dave Nystrom <dnystrom1 at comcast.net> wrote:
 > >>> I have a linear system in a code that I have interfaced to petsc that is
 > >>> taking about 80 percent of the run time per timestep.  This linear system is
 > >>> a symmetric block banded matrix where the blocks are 2x2.  The matrix looks
 > >>> as follows:
 > >>> 
 > >>> 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0
 > >>> 1X X                     Y Y Y
 > >>> 2X X X                     Y Y Y
 > >>> 3  X X X                     Y Y Y
 > >>> 4    X X X                     Y Y Y
 > >>> 5      X X X                     Y Y Y
 > >>> 6        X X X                     Y Y Y
 > >>> 7          X X X                     Y Y Y
 > >>> 8            X X X                     Y Y Y
 > >>> 9              X X X                     Y Y Y
 > >>> 0                X X X                     Y Y Y
 > >>> 1                  X X X                     Y Y Y
 > >>> 2                    X X X                     Y Y Y
 > >>> 3Z                     X X X                     Y Y Y
 > >>> 4Z Z                     X X X                     Y Y Y
 > >>> 5Z Z Z                     X X X                     Y Y Y
 > >>> 6  Z Z Z                     X X X                     Y Y Y
 > >>> 7    Z Z Z                     X X X                     Y Y Y
 > >>> 8      Z Z Z                     X X X                     Y Y Y
 > >>> 9        Z Z Z                     X X X                     Y Y Y
 > >>> 0          Z Z Z                     X X X                     Y Y Y
 > >>> 
 > >>> So in my diagram above, X, Y and Z are 2x2 blocks.  The symmetry of the
 > >>> matrix requires that X_ij = transpose(X_ji) and Y_ij = transpose(Z_ji).  So
 > >>> far, I have just input this matrix to petsc without indicating that it was
 > >>> block banded with 2x2 blocks.  I have also not told petsc that the matrix is
 > >>> symmetric.  And I have allowed petsc to decide the best way to store the
 > >>> matrix.
 > >>> 
 > >>> I can solve this linear system over the course of a run using -ksp_type
 > >>> preonly -pc_type lu.  But that will not scale very well to larger problems
 > >>> that I want to solve.  I can also solve this system over the course of a run
 > >>> using -ksp_type cg -pc_type jacobi -vec_type cusp -mat_type aijcusp.
 > >>> However, over the course of a run, the iteration count ranges from 771 to
 > >>> 47300.  I have also tried sacusp, ainvcusp, sacusppoly, ilu(k) and icc(k)
 > >>> with k=0.  The sacusppoly preconditioner fails because of a thrust error
 > >>> related to an invalid device pointer, if I am remembering correctly.  I
 > >>> reported this problem to petsc-maint a while back and have also reported it
 > >>> for the cusp bugtracker.  But it does not appear that anyone has really
 > >>> looked into the bug.  For the other preconditioners of sacusp, ilu(k) and
 > >>> icc(k), they do not result in convergence to a solution and the runs fail.
 > >>> 
 > >>> All preconditioners are custom. Have you done a literature search for PCs
 > >>> known to work for this problem? Can yu say anything about the spectrum of the
 > >>> operator? conditioning? what is the principal symbol (if its a PDE)? The pattern
 > >>> is not enough to recommend a PC.
 > >>> 
 > >>>   Matt
 > >>> 
 > >>> I'm wondering if there are suggestions of other preconditioners in petsc that
 > >>> I should try.  The only third party package that I have tried is the
 > >>> txpetscgpu package.  I have not tried hypre or any of the multigrid
 > >>> preconditioners yet.  I'm not sure how difficult it is to try those
 > >>> packages.  Anyway, so far I have not found a preconditioner available in
 > >>> petsc that provides a robust solution to this problem and would be interested
 > >>> in any suggestions that anyone might have of things to try.
 > >>> 
 > >>> I'd be happy to provide additional info and am planning on packaging up a
 > >>> couple of examples of the matrix and rhs for people I am interacting with at
 > >>> Tech-X and EMPhotonics.  So I'd be happy to provide the matrix examples for
 > >>> this forum as well if anyone wants a copy.
 > >>> 
 > >>> Thanks,
 > >>> 
 > >>> Dave
 > >>> 
 > >>> --
 > >>> Dave Nystrom
 > >>> 
 > >>> phone: 505-661-9943 (home office)
 > >>>      505-662-6893 (home)
 > >>> skype: dave.nystrom76
 > >>> email: dnystrom1 at comcast.net
 > >>> smail: 219 Loma del Escolar
 > >>>      Los Alamos, NM 87544
 > >>> 
 > >>> 
 > >>> 
 > >>> -- 
 > >>> What most experimenters take for granted before they begin their experiments is infinitely more interesting than any results to which their experiments lead.
 > >>> -- Norbert Wiener
 > >> 
 > > 
 >