# MatMPIBAIJSetPreallocation
Allocates memory for a sparse parallel matrix in `MATMPIBAIJ` format (block compressed row).  For good matrix assembly performance the user should preallocate the matrix storage by setting the parameters d_nz (or d_nnz) and o_nz (or o_nnz).  By setting these parameters accurately, performance can be increased by more than a factor of 50. 
## Synopsis
```
#include "petscmat.h"  
PetscErrorCode MatMPIBAIJSetPreallocation(Mat B, PetscInt bs, PetscInt d_nz, const PetscInt d_nnz[], PetscInt o_nz, const PetscInt o_nnz[])
```
Collective


## Input Parameters

- ***B -*** the matrix
- ***bs   -*** size of block, the blocks are ALWAYS square. One can use `MatSetBlockSizes()` to set a different row and column blocksize but the row
blocksize always defines the size of the blocks. The column blocksize sets the blocksize of the vectors obtained with MatCreateVecs()
- ***d_nz  -*** number of block nonzeros per block row in diagonal portion of local
submatrix  (same for all local rows)
- ***d_nnz -*** array containing the number of block nonzeros in the various block rows
of the in diagonal portion of the local (possibly different for each block
row) or NULL.  If you plan to factor the matrix you must leave room for the diagonal entry and
set it even if it is zero.
- ***o_nz  -*** number of block nonzeros per block row in the off-diagonal portion of local
submatrix (same for all local rows).
- ***o_nnz -*** array containing the number of nonzeros in the various block rows of the
off-diagonal portion of the local submatrix (possibly different for
each block row) or NULL.


If the *_nnz parameter is given then the *_nz parameter is ignored


## Options Database Keys

- ***-mat_block_size -*** size of the blocks to use
- ***-mat_use_hash_table <fact> -*** set hash table factor



## Notes
If `PETSC_DECIDE` or  `PETSC_DETERMINE` is used for a particular argument on one processor
than it must be used on all processors that share the object for that argument.


## Storage Information
For a square global matrix we define each processor's diagonal portion
to be its local rows and the corresponding columns (a square submatrix);
each processor's off-diagonal portion encompasses the remainder of the
local matrix (a rectangular submatrix).

The user can specify preallocated storage for the diagonal part of
the local submatrix with either d_nz or d_nnz (not both).  Set
d_nz=PETSC_DEFAULT and d_nnz=NULL for PETSc to control dynamic
memory allocation.  Likewise, specify preallocated storage for the
off-diagonal part of the local submatrix with o_nz or o_nnz (not both).

Consider a processor that owns rows 3, 4 and 5 of a parallel matrix. In
the figure below we depict these three local rows and all columns (0-11).

```none
           0 1 2 3 4 5 6 7 8 9 10 11
          --------------------------
   row 3  |o o o d d d o o o o  o  o
   row 4  |o o o d d d o o o o  o  o
   row 5  |o o o d d d o o o o  o  o
          --------------------------
```


Thus, any entries in the d locations are stored in the d (diagonal)
submatrix, and any entries in the o locations are stored in the
o (off-diagonal) submatrix.  Note that the d and the o submatrices are
stored simply in the `MATSEQBAIJ` format for compressed row storage.

Now d_nz should indicate the number of block nonzeros per row in the d matrix,
and o_nz should indicate the number of block nonzeros per row in the o matrix.
In general, for PDE problems in which most nonzeros are near the diagonal,
one expects d_nz >> o_nz.   For large problems you MUST preallocate memory
or you will get TERRIBLE performance; see the users' manual chapter on
matrices.

You can call `MatGetInfo()` to get information on how effective the preallocation was;
for example the fields mallocs,nz_allocated,nz_used,nz_unneeded;
You can also run with the option -info and look for messages with the string
malloc in them to see if additional memory allocation was needed.




## See Also
 `MATMPIBAIJ`, `MatCreate()`, `MatCreateSeqBAIJ()`, `MatSetValues()`, `MatCreateBAIJ()`, `MatMPIBAIJSetPreallocationCSR()`, `PetscSplitOwnership()`

## Level
intermediate

## Location
<A HREF="PETSC_DOC_OUT_ROOT_PLACEHOLDER/src/mat/impls/baij/mpi/mpibaij.c.html#MatMPIBAIJSetPreallocation">src/mat/impls/baij/mpi/mpibaij.c</A>

## Examples
<A HREF="PETSC_DOC_OUT_ROOT_PLACEHOLDER/src/mat/tutorials/ex17.c.html">src/mat/tutorials/ex17.c.html</A><BR>
<A HREF="PETSC_DOC_OUT_ROOT_PLACEHOLDER/src/mat/tutorials/ex17f.F90.html">src/mat/tutorials/ex17f.F90.html</A><BR>
<A HREF="PETSC_DOC_OUT_ROOT_PLACEHOLDER/src/snes/tutorials/ex48.c.html">src/snes/tutorials/ex48.c.html</A><BR>

## Implementations

<A HREF="PETSC_DOC_OUT_ROOT_PLACEHOLDER/src/mat/impls/baij/mpi/baijmkl/mpibaijmkl.c.html#MatMPIBAIJSetPreallocation_MPIBAIJMKL">MatMPIBAIJSetPreallocation_MPIBAIJMKL in src/mat/impls/baij/mpi/baijmkl/mpibaijmkl.c</A><BR>
<A HREF="PETSC_DOC_OUT_ROOT_PLACEHOLDER/src/mat/impls/baij/mpi/mpibaij.c.html#MatMPIBAIJSetPreallocation_MPIBAIJ">MatMPIBAIJSetPreallocation_MPIBAIJ in src/mat/impls/baij/mpi/mpibaij.c</A><BR>


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