template<typename _MatrixType, bool IsStrSym>
PastixLU class
Interface to the PaStix solver.
| Template parameters | |
|---|---|
| _MatrixType | the type of the sparse matrix A, it must be a SparseMatrix<> |
| IsStrSym | Indicates if the input matrix has a symmetric pattern, default is false NOTE : Note that if the analysis and factorization phase are called separately, the input matrix will be symmetrized at each call, hence it is advised to symmetrize the matrix in a end-user program and set IsStrSym to true |
Contents
- Reference
Sparse direct LU solver based on PaStiX library.
This class is used to solve the linear systems A.X = B via the PaStix library. The matrix can be either real or complex, symmetric or not.
This class is used to solve the linear systems A.X = B with a supernodal LU factorization in the PaStiX library. The matrix A should be squared and nonsingular PaStiX requires that the matrix A has a symmetric structural pattern. This interface can symmetrize the input matrix otherwise. The vectors or matrices X and B can be either dense or sparse.
This class follows the sparse solver concept.
Public functions
- void analyzePattern(const MatrixType& matrix)
- void compute(const MatrixType& matrix)
- void factorize(const MatrixType& matrix)
Function documentation
template<typename _MatrixType, bool IsStrSym>
void Eigen::
Compute the LU symbolic factorization of matrix using its sparsity pattern. Several ordering methods can be used at this step. See the PaStiX user's manual. The result of this operation can be used with successive matrices having the same pattern as matrix
template<typename _MatrixType, bool IsStrSym>
void Eigen::
Compute the LU supernodal factorization of matrix. iparm and dparm can be used to tune the PaStiX parameters. see the PaStiX user's manual
template<typename _MatrixType, bool IsStrSym>
void Eigen::
Compute the LU supernodal factorization of matrix WARNING The matrix matrix should have the same structural pattern as the same used in the analysis phase.