| anasazi_param | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| automatic_selection_arnoldi_vectors | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| BUCKLING_MODE enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| CAYLEY_MODE enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| CENTERED_EIGENVALUES enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| Clear() | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| Clear() (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| COMPLEX_PART enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| complex_system | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| ComputeAndFactoRealMatrix(const Treal &, const Treal &a, const Treal &b, int which) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeAndFactoRealMatrix(const Tcplx &, const Treal &a, const Treal &b, int which) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeAndFactorizeComplexMatrix(const complex< T0 > &a, const complex< T0 > &b, bool real_p=true) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeAndFactorizeComplexMatrix(const complex< double > &a, const complex< double > &b, bool real_p=true) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeAndFactorizeStiffnessMatrix(const T &a, const T &b) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeAndFactorizeStiffnessMatrix(const complex< T > &a, const complex< T > &b, bool real_p=true) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeAndFactorizeStiffnessMatrix(const Treal &a, const Treal &b, int which_part=EigenProblem_Base< T >::COMPLEX_PART) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeAndFactorizeStiffnessMatrix(const Tcplx &a, const Tcplx &b, int which_part=EigenProblem_Base< T >::COMPLEX_PART) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeDiagonalMass() | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeMassForCholesky() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| ComputeMassForCholesky() (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | virtual |
| ComputeMassMatrix() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| ComputeMassMatrix() (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | virtual |
| ComputeSolution(const Vector< T0 > &X, Vector< T0 > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeSolution(const TransA &transA, const Vector< T0 > &X, Vector< T0 > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| ComputeSolution(const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeSolution(const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeSolution(const SeldonTranspose &transA, const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeSolution(const SeldonTranspose &transA, const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| ComputeStiffnessMatrix() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| ComputeStiffnessMatrix(const T &a, const T &b) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| ComputeStiffnessMatrix() (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | virtual |
| ComputeStiffnessMatrix(const T &a, const T &b) (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | virtual |
| DenseEigenProblem() | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| DenseEigenProblem() (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| diagonal_mass | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| DiagonalMass() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| DiagonalMass() const (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| EigenProblem_Base() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| EigenProblem_Base() (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| eigenvalue_computation_mode | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| emax_interval (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| emin_interval | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| FactorizeCholeskyMass() | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| FactorizeCholeskyMass() (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| FactorizeDiagonalMass() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| FactorizeDiagonalMass()=0 (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | pure virtual |
| feast_param | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| GetAnasaziParameters() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetComputationalMode() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetComputationalMode() const (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetEigensolverType() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetFeastParameters() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetImagShiftValue() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetLowerBoundInterval() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetM() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetN() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbAdditionalEigenvalues() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbAdditionalEigenvalues() const (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbArnoldiVectors() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbAskedEigenvalues() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbBlocks() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbMatrixVectorProducts() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbMaximumIterations() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetNbMaximumRestarts() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetOrthoManager() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetPrintLevel() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetShiftValue() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetSlepcParameters() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetSqrtDiagonal(Vector< T > &)=0 (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | pure virtual |
| GetStoppingCriterion() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetTypeSorting() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetTypeSpectrum() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| GetUpperBoundInterval() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| IMAG_PART enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| IMAG_SHIFTED_MODE enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| IncrementProdMatVect() | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| Init(int n) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| InitMatrix(Matrix< Tstiff, Prop, Storage > &) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| InitMatrix(Matrix< Tstiff, Prop, Storage > &, Matrix< Tmass, PropM, StorageM > &) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >::InitMatrix(Matrix< T, Prop, Storage > &) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >::InitMatrix(Matrix< T, Prop, Storage > &, Matrix< double, Symmetric, RowSymPacked > &) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| INVERT_MODE enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| IsHermitianProblem() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| IsSymmetricProblem() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| Kh | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| LARGE_EIGENVALUES enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| MassValue typedef | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| mat_chol | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| mat_chol | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| mat_lu | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| mat_lu_cplx | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| mat_lu_real | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| Mh | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| MltCholeskyMass(const TransStatus &transA, Vector< T0 > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| MltCholeskyMass(const TransStatus &transA, Vector< complex< double > > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| MltCholeskyMass(const SeldonTranspose &transA, Vector< Treal > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltCholeskyMass(const SeldonTranspose &transA, Vector< Tcplx > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >::MltCholeskyMass(const TransStatus &transA, Vector< T > &X) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| MltInvSqrtDiagonalMass(Vector< T0 > &X) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| MltInvSqrtDiagonalMass(Vector< Treal > &X)=0 (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | pure virtual |
| MltInvSqrtDiagonalMass(Vector< Tcplx > &X)=0 (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | pure virtual |
| MltMass(const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltMass(const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltMass(const SeldonTranspose &, const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltMass(const SeldonTranspose &, const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltSqrtDiagonalMass(Vector< T0 > &X) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| MltSqrtDiagonalMass(Vector< Treal > &X)=0 (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | pure virtual |
| MltSqrtDiagonalMass(Vector< Tcplx > &X)=0 (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | pure virtual |
| MltStiffness(const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltStiffness(const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltStiffness(const T &coef_mass, const T &coef_stiff, const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltStiffness(const T &coef_mass, const T &coef_stiff, const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltStiffness(const SeldonTranspose &, const Vector< Treal > &X, Vector< Treal > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| MltStiffness(const SeldonTranspose &, const Vector< Tcplx > &X, Vector< Tcplx > &Y) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| n_ | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| nb_add_eigenvalues | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| nb_arnoldi_vectors | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| nb_blocks | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| nb_eigenvalues_wanted | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| nb_maximum_iterations | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| nb_prod | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| ORTHO_DGKS enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| ortho_manager | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| ORTHO_SVQB enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| pivot | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| print_level | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| PrintErrorInit() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| PrintErrorInit() const (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| REAL_PART enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| REGULAR_MODE enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| restart_number | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| selected_part (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| SetCholeskyFactoForMass(bool chol=true) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetCholeskyFactoForMass(bool chol=true) (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetComputationalMode(int mode) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetComputationalMode(int mode) (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetDiagonalMass(bool diag=true) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetDiagonalMass(bool diag=true) (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetEigensolverType(int type) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetImagShiftValue(const T &) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetIntervalSpectrum(double, double) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbAdditionalEigenvalues(int n) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbAdditionalEigenvalues(int n) (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbArnoldiVectors(int n) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbAskedEigenvalues(int n) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbBlocks(int) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbMaximumIterations(int n) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetNbMaximumRestarts(int) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetPrintLevel(int lvl) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetShiftValue(const T &) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetStoppingCriterion(double eps) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetTypeSpectrum(int type, const T &val, int type_sort=SORTED_MODULUS) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SetTypeSpectrum(int type, const complex< T > &val, int type_sort=SORTED_MODULUS) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| shift | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| shift_imag (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| SHIFTED_MODE enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| slepc_param | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| SMALL_EIGENVALUES enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SolveCholeskyMass(const TransStatus &transA, Vector< T0 > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| SolveCholeskyMass(const TransStatus &transA, Vector< complex< double > > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | |
| SolveCholeskyMass(const SeldonTranspose &transA, Vector< Treal > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| SolveCholeskyMass(const SeldonTranspose &transA, Vector< Tcplx > &X) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | virtual |
| EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >::SolveCholeskyMass(const TransStatus &transA, Vector< T > &X) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SOLVER_BD enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SOLVER_BKS enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SOLVER_LOBPCG enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SORTED_IMAG enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SORTED_MODULUS enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| SORTED_REAL enum value (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| sqrt_diagonal_mass | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| stopping_criterion | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| Tcplx typedef (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| Treal typedef (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| type_solver | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| type_sort_eigenvalues | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| type_spectrum_wanted | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| use_cholesky | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | protected |
| UseCholeskyFactoForMass() const | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| UseCholeskyFactoForMass() const (defined in Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > >) | Seldon::EigenProblem_Base< T, Matrix< T, Prop, Storage >, Matrix< double, Symmetric, RowSymPacked > > | |
| Xchol_imag (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| Xchol_imag (defined in Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM >) | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| Xchol_real | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |
| Xchol_real | Seldon::DenseEigenProblem< T, Prop, Storage, Tmass, PropM, StorageM > | protected |