PETSc
config/configure.py:
- Building PETSc using CMake is enabled automatically if CMake is installed (enabling parallel builds and fast incremental builds), otherwise the plain make-based system is used.
- Added --with-cuda-only flag to allow compiling CUDA files without requiring Thrust and Cusp
Vec:
- VecCreateSeqWithArray() and VecCreateMPIWithArray() now take a blocksize argument before the local length
- VecSetBlockSize() cannot be called after VecCreateSeq() or VecCreateMPI() and must be called before VecSetUp() or VecSetFromOptions() or before either VecSetType() or VecSetSizes()
Mat:
- MatScaleSystem() and MatUnScaleSystem() are gone, they didn't do anything.
- Renamed MatNullSpaceAttach() to MatSetNullSpace()
- MatMult() no longer removes the nullspace set by MatSetNullSpace()
- Renamed MatMatMultTranspose() for C=A^T*B to MatTransposeMatMult()
- Added MatMatTransposeMult() for C=A*B^T
- Added MatRARt() for C=R*A*R^T
- Preallocation routines now automatically set MAT_NEW_NONZERO_ALLOCATION_ERR, if you intentionally preallocate less than necessary then use MatSetOption(mat,MAT_NEW_NONZERO_ALLOCATION_ERR,PETSC_FALSE) to disable the error generation.
- MatSetBlockSize() must be called before MatSetUp() or MatXXXXSetPreallocation() or block size defaults to 1
- -mat_block_size is NOT processed by MatXXXXSetPreallocation() you MUST call MatSetFromOptions() before MatSetUp() to have it processed
- You MUST now call MatXXXSetPreallocation() or MatSetUp() on any matrix you create directly (not using DMCreateMatrix()) before calling MatSetValues(), MatSetValuesBlocked() etc.
- MatGetOwnershipRange() will not work without setting up the matrix.
- MatSetUpPreallocation() and MatPreallocated() are removed, use MatSetUp()
- MatPreallocateSymmetricInitialize() is removed, use MatPreallocateInitialize()
- MatCreateMPIAIJ(), MatCreateMPIBAIJ(), MatCreateMPISBAIJ(), MatCreateMPIDense() are now MatCreateAIJ(), MatCreateBAIJ(), MatCreateSBAIJ(), MatCreateDense(). Note that on a single process they have always created the sequential version of the matrix so this naming is more accurate.
- Renamed MatMerge_SeqsToMPI() to MatCreateMPIAIJSumSeqAIJ()
- Renamed MatMerge() to MatCreateMPIAIJConcatenateSeqAIJ()
- Added block size in call to MatCreateIS()
- MatInvertBlockDiagonal() now returns a const pointer
PC:
- Remove PCASASetDM(), use PCSetDM() instead.
- Add PCFieldSplitSetSchurFactType(), rename -pc_fieldsplit_schur_factorization_type to -pc_fieldsplit_schur_fact_type.
- Added native algebraic multigrid method -pc_type gamg. Aggregation method is recommended: -pc_gamg_type agg and for elliptic operators smoothing is recommended: -pc_gamg_agg_nsmooths 1.
- PCSetCoordinates(PC,PetscInt,PetscInt,PetscReal*) added second integer argument for number of local vertices.
- Added PCISSetSubdomainScalingFactor(PC,PetscScalar).
-
PCGASM:
- Remove PCGASMSetLocalSubdomains(), use PCGASMSetSubdomains(); note: the first argument is now the list of "inner" subdomains (without overlap), unlike before and for PCASM
- PCGASMSetTotalSubdomains(PC,PetscInt,PetscBool); added third argument to indicate whether local subdomains should be constructed.
- Removed PCGASMCreateSubdomains(), use PCGASMCreateLocalSubdomains(Mat,PetscInt,PetscInt,IS*[],IS*[]); second PetscInt argument is requested overlap
- PCGASMCreateSubdomains2D(PC,PetscInt,PetscInt,PetscInt,PetscInt,PetscInt,PetscInt,PetscInt*,IS[]*,IS[]*): the 9-th and 10-th argument have been swapped: the 9-th outputs the inner subdomains, the 10-th outputs the outer subdomains.
- PCMG multigrid defaults changed to use a Chebyshev smoother with block Jacobi Gauss-Seidel relaxation.
This is a linear preconditioner so it can be used with normal Krylov methods rather than only flexible methods, as well as having fewer synchronization pointst.
Use -mg_levels_ksp_type gmres -mg_levels_ksp_max_it 1 -mg_levels_pc_type bjacobi for the original behavior.
KSP:
- KSPSetOperators() will automatically set the null space present on the input matrix
- Renamed KSPCHEBYCHEV to KSPCHEBYSHEV
- Added Hybrid CHEBYCHEV (-ksp_chebyshev_hybrid)
- Added pipelined GMRES (KSPPGMRES) which performs one non-blocking reduction per iteration instead of two blocking reductions.
- Added flexible BiCGStab (KSPFBCGS) which tolerates a nonlinear preconditioner (like KSPFGMRES).
- Added improved flexible BiCGStab (KSPIFBCGS) which tolerates a nonlinear preconditioner and performs one reduction every other iteration (like KSPIBCGS).
SNES:
- Added SNESGetSNESLineSearch
- Changed default max_its and max_funcs for non-newton SNES solvers to 10000 and 30000 respectively
- Changed options and command-line arguments for SNESFAS to be in line with PCMG
- Added quasi-Newton (SNESQN), Nonlinear GMRES (SNESNGMRES), nonlinear conjugate gradients (SNESNCG), and multi-stage methods (SNESMS, used as a smoother for nonlinear multigrid).
- Support for Full Approximation Scheme nonlinear multigrid (SNESFAS) moved from DMMG to SNES and made composable with the methods above.
- SNES line search type should be set by name with SNESLineSearchSetType rather than with SNESLineSearchSet, see below.
SNESLineSearch:
- SNESLineSearch object added
- The default SNESLineSearch of a SNES may be gotten with SNESGetSNESLineSearch(SNES snes, SNESLineSearch *linesearch)
- The linesearch type may be set with SNESLineSearchSetType() or -snes_linesearch_type
- The line search (and pre and post checks) is applied using SNESLineSearchApply()
- Pre/Post-check methods may be set with SNESLineSearchSetPre/PostCheck()
- The previous steplength may be accessed through SNESLineSearchSetLambda()
- The damping parameter may be set through SNESLineSearchSetDamping() or -snes_linesearch_damping
- Success of the line search is determined using SNESLineSearchGetSuccess()
- Custom linesearches may be built through SNESLINESEARCHSHELL,("shell") or by registering a new linesearch type with SNESLineSearchRegisterDynamic()
- SNESLINESEARCHBT,("bt") replaces SNES_LS_CUBIC and SNES_LS_QUADRATIC, and order may be set with SNESLineSearchSetOrder() or -snes_linesearch_order
- SNESLINESEARCHBASIC,("basic") replaces SNES_LS_BASIC and SNES_LS_BASICNONORMS. Norms may be turned off with SNESLineSearchSetComputeNorms() or -snes_linesearch_norms 0
- SNESLineSearchSetTolerances() replaces SNESLSSetParams(), with the former alpha parameter set with SNESLineSearchBTSetAlpha() or -snes_linesearch_alpha
- Added Line Search type SNESLINESEARCHL2,("l2") as the default for NRICHARDSON
- SNESLINESEARCHCP,("cp") added as the default line search method for SNESNCG and SNESQN
TS:
- -ts_max_time changed to -ts_final_time
- TSDefaultComputeJacobian() and TSDefaultComputeJacobianColor() have been removed.
Configure TS to use coloring with SNESSetJacobian().
- Added TSROSW for Rosenbrock-W methods.
- Added a common, extensible system for adaptive controllers, see TSGetAdapt().
DM/DA:
- Added DMCreateDecomposition(DM,PetscInt,char*[]*,IS[]*,DM[]*) for use with PCFIELDSPLIT,PCASM,PCGASM
- Added DMCreateDecompositionDM(DM,const char*,DM*) to create a version of the DM encapsulating a named decomposition; use with DMCreateDecomposition()
- Added DMRedundant for managing globally coupled degrees of freedom.
- Removed DMCompositeAddArray(), use DMRedundantCreate() and DMCompositeAddDM().
-
Renamed DMGetMatrix(), DMGetInterpolation(), DMGetInjection(), and
DMGetColoring() to DMCreateMatrix(), etc for semantic consistency.
- The communicator argument to DMRefine() and DMCoarsen() can be MPI_COMM_NULL, but not PETSC_NULL, because the latter may not be the correct type.
- Added DMCoarsenHookAdd() and DMRefineHookAdd() for shepherding persistent resolution-dependent data between levels.
- Added DMGetNamedGlobalVector() for storing persistent resolution-dependent data.
- DMDASNESSetFunctionLocal() and DMDASNESSetJacobianLocal() can be used for convenient local evaluation; these routines will eventually replace DMDASetLocalFunction() and DMDASetLocalJacobian().
DMMG:
-
DMMG is now completely removed from PETSc.
Equivalent (and better) functionality can now be obtained by calling SNESSetDM() or KSPSetDM().
Make sure to avoid resolution-dependent data in the user context.
Use SNESGetDM() or KSPGetDM() in the function evaluation context to obtain the grid.
DMGetNamedGlobalVector(), DMCoarsenHookAdd(), and DMRefineHookAdd() can be used to manage persistent resolution-dependent data.
PetscViewer:
- A VTK binary viewer was added, see PETSCVIEWERVTK.
SYS:
- PetscBagLoad() now requires you previously created and registered all the records in the PETSc bag, allows loading on systems with different struct layout/endianness.
- PetscSF added as a type-generic graph communication mechanism. The current implementation requires MPI-2 one-sided and the interface is currently optional.
Fortran:
- PETSC_NULL_TRUTH is now PETSC_NULL_BOOL
- PetscOptionsGetEnum() now available from Fortran
- The Hypre interface was updated to 2.8.0b and now supports 64-bit integers.
- SuperLU_DIST interface updated to 3.1.
- SuperLU interface updated to 4.3.
- Sundials interface updated to 2.5.0.
- FFTW interface updated to 3.3.2.
- ParMetis updated to 4.0.2 and split from Metis 5.0.2 which is now separate.
Build:
- If Python 2.7 is available, the config/builder2.py is now available for a complete build, including
dependency tracking.
Examples:
- SNES ex62 illustrates the use of DMComplex to solve the Stokes equation on an unstructured mesh. The Python
tests show how to use block preconditioning strategies from the command line.
- SNES ex52 illustrates the use of CUDA for FEM integration