To set the options on the solvers separate for each block call PCFieldSplitGetSubKSP() and set the options directly on the resulting KSP object

-pc_fieldsplit_%d_fields <a,b,..> | - indicates the fields to be used in the %d'th split | |

-pc_fieldsplit_default | - automatically add any fields to additional splits that have not been supplied explicitly by -pc_fieldsplit_%d_fields | |

-pc_fieldsplit_block_size <bs> | - size of block that defines fields (i.e. there are bs fields) | |

-pc_fieldsplit_type <additive,multiplicative,symmetric_multiplicative,schur> | - type of relaxation or factorization splitting | |

-pc_fieldsplit_schur_precondition <self,user,diag> | - default is diag | |

-pc_fieldsplit_detect_saddle_point | - automatically finds rows with zero or negative diagonal and uses Schur complement with no preconditioner as the solver | |

Options prefix for inner solvers when using Schur complement preconditioner are | - fieldsplit_0_ and -fieldsplit_1_ for all other solvers they are -fieldsplit_%d_ for the dth field, use -fieldsplit_ for all fields |

If no fields are set the default is used. The fields are defined by entries strided by bs, beginning at 0 then 1, etc to bs-1. The block size can be set with PCFieldSplitSetBlockSize(), if this is not called the block size defaults to the blocksize of the second matrix passed to KSPSetOperators()/PCSetOperators().

For the Schur complement preconditioner if J = ( A00 A01 )

( A10 A11 )

the preconditioner using full factorization is

( I -A10 ksp(A00) ) ( inv(A00) 0 ) ( I 0 )

( 0 I ) ( 0 ksp(S) ) ( -A10 ksp(A00) I )where the action of inv(A00) is applied using the KSP solver with prefix -fieldsplit_0_. The action of ksp(S) is computed using the KSP solver with prefix -fieldsplit_splitname_ (where splitname was given in providing the SECOND split or 1 if not give). For PCFieldSplitGetKSP() when field number is 0, it returns the KSP associated with -fieldsplit_0_ while field number 1 gives -fieldsplit_1_ KSP. By default A11 is used to construct a preconditioner for S, use PCFieldSplitSchurPrecondition() to turn on or off this option. You can use the preconditioner PCLSC to precondition the Schur complement with -fieldsplit_1_pc_type lsc. The factorization type is set using -pc_fieldsplit_schur_fact_type <diag, lower, upper, full>. The full is shown above, diag gives

( inv(A00) 0 )

( 0 -ksp(S) )note that slightly counter intuitively there is a negative in front of the ksp(S) so that the preconditioner is positive definite. The lower factorization is the inverse of

( A00 0 )

( A10 S )where the inverses of A00 and S are applied using KSPs. The upper factorization is the inverse of

( A00 A01 )

( 0 S )where again the inverses of A00 and S are applied using KSPs.

If only one set of indices (one IS) is provided with PCFieldSplitSetIS() then the complement of that IS is used automatically for a second block.

The fieldsplit preconditioner cannot currently be used with the BAIJ or SBAIJ data formats if the blocksize is larger than 1. Generally it should be used with the AIJ format.

The forms of these preconditioners are closely related if not identical to forms derived as "Distributive Iterations", see, for example, page 294 in "Principles of Computational Fluid Dynamics" by Pieter Wesseling. Note that one can also use PCFIELDSPLIT inside a smoother resulting in "Distributive Smoothers".

PCFieldSplitGetSubKSP(), PCFieldSplitSetFields(), PCFieldSplitSetType(), PCFieldSplitSetIS(), PCFieldSplitSchurPrecondition()

** Level:intermediate
Location:**src/ksp/pc/impls/fieldsplit/fieldsplit.c

Index of all PC routines

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Index of all manual pages