A minimal residual solver for sparse symmetric problems. More...
#include <MINRES.h>
Inheritance diagram for Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >:
Public Types | |
| enum | { UpLo = _UpLo } |
| typedef MatrixType::Index | Index |
| typedef _MatrixType | MatrixType |
| typedef _Preconditioner | Preconditioner |
| typedef MatrixType::RealScalar | RealScalar |
| typedef MatrixType::Scalar | Scalar |
 Public Types inherited from Eigen::IterativeSolverBase< MINRES< _MatrixType, _UpLo, _Preconditioner > > | |
| typedef MatrixType::Index | Index |
| typedef internal::traits< MINRES< _MatrixType, _UpLo, _Preconditioner > >::MatrixType | MatrixType |
| typedef internal::traits< MINRES< _MatrixType, _UpLo, _Preconditioner > >::Preconditioner | Preconditioner |
| typedef MatrixType::RealScalar | RealScalar |
| typedef MatrixType::Scalar | Scalar |
Public Member Functions | |
| template<typename Rhs , typename Dest > | |
| void | _solve (const Rhs &b, Dest &x) const |
| template<typename Rhs , typename Dest > | |
| void | _solveWithGuess (const Rhs &b, Dest &x) const |
| MINRES () | |
| MINRES (const MatrixType &A) | |
| template<typename Rhs , typename Guess > | |
| const internal::solve_retval_with_guess< MINRES, Rhs, Guess > | solveWithGuess (const MatrixBase< Rhs > &b, const Guess &x0) const |
| ~MINRES () | |
| Public Member Functions inherited from Eigen::IterativeSolverBase< MINRES< _MatrixType, _UpLo, _Preconditioner > > | |
| void | _solve_sparse (const Rhs &b, SparseMatrix< DestScalar, DestOptions, DestIndex > &dest) const |
| MINRES< _MatrixType, _UpLo, _Preconditioner > & | analyzePattern (const MatrixType &A) |
| Index | cols () const |
| MINRES< _MatrixType, _UpLo, _Preconditioner > & | compute (const MatrixType &A) |
| MINRES< _MatrixType, _UpLo, _Preconditioner > & | derived () |
| const MINRES< _MatrixType, _UpLo, _Preconditioner > & | derived () const |
| RealScalar | error () const |
| MINRES< _MatrixType, _UpLo, _Preconditioner > & | factorize (const MatrixType &A) |
| ComputationInfo | info () const |
| int | iterations () const |
| IterativeSolverBase () | |
| IterativeSolverBase (const MatrixType &A) | |
| int | maxIterations () const |
| Preconditioner & | preconditioner () |
| const Preconditioner & | preconditioner () const |
| Index | rows () const |
| MINRES< _MatrixType, _UpLo, _Preconditioner > & | setMaxIterations (int maxIters) |
| MINRES< _MatrixType, _UpLo, _Preconditioner > & | setTolerance (const RealScalar &tolerance) |
| const internal::solve_retval< MINRES< _MatrixType, _UpLo, _Preconditioner >, Rhs > | solve (const MatrixBase< Rhs > &b) const |
| const internal::sparse_solve_retval< IterativeSolverBase, Rhs > | solve (const SparseMatrixBase< Rhs > &b) const |
| RealScalar | tolerance () const |
| ~IterativeSolverBase () | |
Private Types | |
| typedef IterativeSolverBase< MINRES > | Base |
Additional Inherited Members | |
| Protected Member Functions inherited from Eigen::IterativeSolverBase< MINRES< _MatrixType, _UpLo, _Preconditioner > > | |
| void | init () |
| Protected Attributes inherited from Eigen::IterativeSolverBase< MINRES< _MatrixType, _UpLo, _Preconditioner > > | |
| bool | m_analysisIsOk |
| RealScalar | m_error |
| bool | m_factorizationIsOk |
| ComputationInfo | m_info |
| bool | m_isInitialized |
| int | m_iterations |
| int | m_maxIterations |
| Preconditioner | m_preconditioner |
| RealScalar | m_tolerance |
| const MatrixType * | mp_matrix |
Detailed Description
template<typename _MatrixType, int _UpLo, typename _Preconditioner>
class Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >
A minimal residual solver for sparse symmetric problems.
This class allows to solve for A.x = b sparse linear problems using the MINRES algorithm of Paige and Saunders (1975). The sparse matrix A must be symmetric (possibly indefinite). The vectors x and b can be either dense or sparse.
- Template Parameters
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_MatrixType the type of the sparse matrix A, can be a dense or a sparse matrix. _UpLo the triangular part that will be used for the computations. It can be Lower or Upper. Default is Lower. _Preconditioner the type of the preconditioner. Default is DiagonalPreconditioner
The maximal number of iterations and tolerance value can be controlled via the setMaxIterations() and setTolerance() methods. The defaults are the size of the problem for the maximal number of iterations and NumTraits<Scalar>::epsilon() for the tolerance.
This class can be used as the direct solver classes. Here is a typical usage example:
int n = 10000;
VectorXd x(n), b(n);
SparseMatrix<double> A(n,n);
// fill A and b
MINRES<SparseMatrix<double> > mr;
mr.compute(A);
x = mr.solve(b);
std::cout << "#iterations: " << mr.iterations() << std::endl;
std::cout << "estimated error: " << mr.error() << std::endl;
// update b, and solve again
x = mr.solve(b);
By default the iterations start with x=0 as an initial guess of the solution. One can control the start using the solveWithGuess() method. Here is a step by step execution example starting with a random guess and printing the evolution of the estimated error:
- Note that such a step by step excution is slightly slower.x = VectorXd::Random(n);mr.setMaxIterations(1);int i = 0;do {x = mr.solveWithGuess(b,x);std::cout << i << " : " << mr.error() << std::endl;++i;} while (mr.info()!=Success && i<100);
- See also
- class ConjugateGradient, BiCGSTAB, SimplicialCholesky, DiagonalPreconditioner, IdentityPreconditioner
Member Typedef Documentation
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
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private |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
| typedef MatrixType::Index Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >::Index |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
| typedef _MatrixType Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >::MatrixType |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
| typedef _Preconditioner Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >::Preconditioner |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
| typedef MatrixType::RealScalar Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >::RealScalar |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
| typedef MatrixType::Scalar Eigen::MINRES< _MatrixType, _UpLo, _Preconditioner >::Scalar |
Member Enumeration Documentation
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
| anonymous enum |
Constructor & Destructor Documentation
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
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inline |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
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inline |
Initialize the solver with matrix A for further Ax=b solving.
This constructor is a shortcut for the default constructor followed by a call to compute().
- Warning
- this class stores a reference to the matrix A as well as some precomputed values that depend on it. Therefore, if A is changed this class becomes invalid. Call compute() to update it with the new matrix A, or modify a copy of A.
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
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inline |
Member Function Documentation
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
template<typename Rhs , typename Dest >
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inline |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
template<typename Rhs , typename Dest >
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inline |
template<typename _MatrixType , int _UpLo, typename _Preconditioner >
template<typename Rhs , typename Guess >
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inline |
using the current decomposition of A x0 as an initial solution.The documentation for this class was generated from the following file: