Dune Core Modules (2.4.1)
Block Recursive Iterative Kernels
Classes | |
struct | Dune::BL< l > |
compile-time parameter for block recursion depth More... | |
Functions | |
template<class M , class X , class Y > | |
void | Dune::bltsolve (const M &A, X &v, const Y &d) |
block lower triangular solve | |
template<class M , class X , class Y , class K > | |
void | Dune::bltsolve (const M &A, X &v, const Y &d, const K &w) |
relaxed block lower triangular solve | |
template<class M , class X , class Y > | |
void | Dune::ubltsolve (const M &A, X &v, const Y &d) |
unit block lower triangular solve | |
template<class M , class X , class Y , class K > | |
void | Dune::ubltsolve (const M &A, X &v, const Y &d, const K &w) |
relaxed unit block lower triangular solve | |
template<class M , class X , class Y > | |
void | Dune::butsolve (const M &A, X &v, const Y &d) |
block upper triangular solve | |
template<class M , class X , class Y , class K > | |
void | Dune::butsolve (const M &A, X &v, const Y &d, const K &w) |
relaxed block upper triangular solve | |
template<class M , class X , class Y > | |
void | Dune::ubutsolve (const M &A, X &v, const Y &d) |
unit block upper triangular solve | |
template<class M , class X , class Y , class K > | |
void | Dune::ubutsolve (const M &A, X &v, const Y &d, const K &w) |
relaxed unit block upper triangular solve | |
template<class M , class X , class Y , int l> | |
void | Dune::bltsolve (const M &A, X &v, const Y &d, BL< l >) |
block lower triangular solve | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::bltsolve (const M &A, X &v, const Y &d, const K &w, BL< l >) |
relaxed block lower triangular solve | |
template<class M , class X , class Y , int l> | |
void | Dune::ubltsolve (const M &A, X &v, const Y &d, BL< l >) |
unit block lower triangular solve | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::ubltsolve (const M &A, X &v, const Y &d, const K &w, BL< l >) |
relaxed unit block lower triangular solve | |
template<class M , class X , class Y , int l> | |
void | Dune::butsolve (const M &A, X &v, const Y &d, BL< l > bl) |
block upper triangular solve | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::butsolve (const M &A, X &v, const Y &d, const K &w, BL< l > bl) |
relaxed block upper triangular solve | |
template<class M , class X , class Y , int l> | |
void | Dune::ubutsolve (const M &A, X &v, const Y &d, BL< l > bl) |
unit block upper triangular solve | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::ubutsolve (const M &A, X &v, const Y &d, const K &w, BL< l > bl) |
relaxed unit block upper triangular solve | |
template<class M , class X , class Y > | |
void | Dune::bdsolve (const M &A, X &v, const Y &d) |
block diagonal solve, no relaxation | |
template<class M , class X , class Y , class K > | |
void | Dune::bdsolve (const M &A, X &v, const Y &d, const K &w) |
block diagonal solve, with relaxation | |
template<class M , class X , class Y , int l> | |
void | Dune::bdsolve (const M &A, X &v, const Y &d, BL< l >) |
block diagonal solve, no relaxation | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::bdsolve (const M &A, X &v, const Y &d, const K &w, BL< l >) |
block diagonal solve, with relaxation | |
template<class M , class X , class Y , class K > | |
void | Dune::dbgs (const M &A, X &x, const Y &b, const K &w) |
GS step. | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::dbgs (const M &A, X &x, const Y &b, const K &w, BL< l >) |
GS step. | |
template<class M , class X , class Y , class K > | |
void | Dune::bsorf (const M &A, X &x, const Y &b, const K &w) |
SOR step. | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::bsorf (const M &A, X &x, const Y &b, const K &w, BL< l >) |
SOR step. | |
template<class M , class X , class Y , class K > | |
void | Dune::bsorb (const M &A, X &x, const Y &b, const K &w) |
SSOR step. | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::bsorb (const M &A, X &x, const Y &b, const K &w, BL< l >) |
Backward SOR step. | |
template<class M , class X , class Y , class K > | |
void | Dune::dbjac (const M &A, X &x, const Y &b, const K &w) |
Jacobi step. | |
template<class M , class X , class Y , class K , int l> | |
void | Dune::dbjac (const M &A, X &x, const Y &b, const K &w, BL< l >) |
Jacobi step. | |
template<class M > | |
void | Dune::bilu0_decomposition (M &A) |
compute ILU decomposition of A. A is overwritten by its decomposition | |
template<class M , class X , class Y > | |
void | Dune::bilu_backsolve (const M &A, X &v, const Y &d) |
LU backsolve with stored inverse. | |
template<class M > | |
void | Dune::bilu_decomposition (const M &A, int n, M &ILU) |
Detailed Description
Generic iterative kernels for the solvers which work on the block recursive structure of the matrices and vectors.
Function Documentation
◆ bilu_decomposition()
template<class M >
void Dune::bilu_decomposition | ( | const M & | A, |
int | n, | ||
M & | ILU | ||
) |
ILU decomposition of order n Computes ILU decomposition of order n. The matrix ILU should be an empty matrix in row_wise creation mode. This allows the user to either specify the number of nonzero elements or to determine it automatically at run-time.
|
Legal Statements / Impressum |
Hosted by TU Dresden |
generated with Hugo v0.111.3
(Nov 24, 23:30, 2024)