StarNEig Library
version v0.1-beta.6
A task-based library for solving nonsymmetric eigenvalue problems
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Functions for solving non-symmetric generalized eigenvalue problems on shared memory systems. More...
Computational functions | |
starneig_error_t | starneig_GEP_SM_HessenbergTriangular (int n, double A[], int ldA, double B[], int ldB, double Q[], int ldQ, double Z[], int ldZ) |
Computes a Hessenberg-triangular decomposition of a general matrix pencil. More... | |
starneig_error_t | starneig_GEP_SM_Schur (int n, double H[], int ldH, double T[], int ldT, double Q[], int ldQ, double Z[], int ldZ, double real[], double imag[], double beta[]) |
Computes a generalized Schur decomposition given a Hessenberg-triangular decomposition. More... | |
starneig_error_t | starneig_GEP_SM_ReorderSchur (int n, int selected[], double S[], int ldS, double T[], int ldT, double Q[], int ldQ, double Z[], int ldZ, double real[], double imag[], double beta[]) |
Reorders selected generalized eigenvalues to the top left corner of a generalized Schur decomposition. More... | |
starneig_error_t | starneig_GEP_SM_Reduce (int n, double A[], int ldA, double B[], int ldB, double Q[], int ldQ, double Z[], int ldZ, double real[], double imag[], double beta[], int(*predicate)(double real, double imag, double beta, void *arg), void *arg, int selected[], int *num_selected) |
Computes a (reordered) generalized Schur decomposition given a general matrix pencil. More... | |
starneig_error_t | starneig_GEP_SM_Eigenvectors (int n, int selected[], double S[], int ldS, double T[], int ldT, double Z[], int ldZ, double X[], int ldX) |
Computes a generalized eigenvector for each selected generalized eigenvalue. More... | |
Helper functions | |
starneig_error_t | starneig_GEP_SM_Select (int n, double S[], int ldS, double T[], int ldT, int(*predicate)(double real, double imag, double beta, void *arg), void *arg, int selected[], int *num_selected) |
Generates a selection array for a Schur-triangular matrix pencil using a user-supplied predicate function. More... | |
Expert computational functions | |
starneig_error_t | starneig_GEP_SM_Schur_expert (struct starneig_schur_conf *conf, int n, double H[], int ldH, double T[], int ldT, double Q[], int ldQ, double Z[], int ldZ, double real[], double imag[], double beta[]) |
Computes a generalized Schur decomposition given a Hessenberg-triangular decomposition. More... | |
starneig_error_t | starneig_GEP_SM_ReorderSchur_expert (struct starneig_reorder_conf *conf, int n, int selected[], double S[], int ldS, double T[], int ldT, double Q[], int ldQ, double Z[], int ldZ, double real[], double imag[], double beta[]) |
Reorders selected eigenvalues to the top left corner of a generalized Schur decomposition. More... | |
starneig_error_t | starneig_GEP_SM_Eigenvectors_expert (struct starneig_eigenvectors_conf *conf, int n, int selected[], double S[], int ldS, double T[], int ldT, double Z[], int ldZ, double X[], int ldX) |
Computes a generalized eigenvector for each selected generalized eigenvalue. More... | |
Functions for solving non-symmetric generalized eigenvalue problems on shared memory systems.
starneig_error_t starneig_GEP_SM_HessenbergTriangular | ( | int | n, |
double | A[], | ||
int | ldA, | ||
double | B[], | ||
int | ldB, | ||
double | Q[], | ||
int | ldQ, | ||
double | Z[], | ||
int | ldZ | ||
) |
Computes a Hessenberg-triangular decomposition of a general matrix pencil.
[in] | n | The order of , , and . |
[in,out] | A | On entry, the general matrix . On exit, the upper Hessenberg matrix . |
[in] | ldA | The leading dimension of . |
[in,out] | B | On entry, the general matrix . On exit, the upper triangular matrix . |
[in] | ldB | The leading dimension of . |
[in,out] | Q | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldQ | The leading dimension of . |
[in,out] | Z | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldZ | The leading dimension of . |
starneig_error_t starneig_GEP_SM_Schur | ( | int | n, |
double | H[], | ||
int | ldH, | ||
double | T[], | ||
int | ldT, | ||
double | Q[], | ||
int | ldQ, | ||
double | Z[], | ||
int | ldZ, | ||
double | real[], | ||
double | imag[], | ||
double | beta[] | ||
) |
Computes a generalized Schur decomposition given a Hessenberg-triangular decomposition.
[in] | n | The order of , , and . |
[in,out] | H | On entry, the upper Hessenberg matrix . On exit, the Schur matrix . |
[in] | ldH | The leading dimension of . |
[in,out] | T | On entry, the upper triangular matrix . On exit, the upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in,out] | Q | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldQ | The leading dimension of . |
[in,out] | Z | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldZ | The leading dimension of . |
[out] | real | An array of the same size as containing the real parts of the values of the computed generalized eigenvalues. |
[out] | imag | An array of the same size as containing the imaginary parts of the values of the computed generalized eigenvalues. |
[out] | beta | An array of the same size as containing the values of computed generalized eigenvalues. |
starneig_error_t starneig_GEP_SM_ReorderSchur | ( | int | n, |
int | selected[], | ||
double | S[], | ||
int | ldS, | ||
double | T[], | ||
int | ldT, | ||
double | Q[], | ||
int | ldQ, | ||
double | Z[], | ||
int | ldZ, | ||
double | real[], | ||
double | imag[], | ||
double | beta[] | ||
) |
Reorders selected generalized eigenvalues to the top left corner of a generalized Schur decomposition.
[in] | n | The order of , , and . |
[in,out] | selected | The selection array. On entry, the initial positions of the selected generalized eigenvalues. On exit, the final positions of all correctly placed selected generalized eigenvalues. In case of failure, the number of 1's in the output may be less than the number of 1's in the input. |
[in,out] | S | On entry, the Schur matrix . On exit, the updated Schur matrix . |
[in] | ldS | The leading dimension of . |
[in,out] | T | On entry, the upper triangular . On exit, the updates upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in,out] | Q | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldQ | The leading dimension of . |
[in,out] | Z | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldZ | The leading dimension of . |
[out] | real | An array of the same size as containing the real parts of the values of the computed generalized eigenvalues. |
[out] | imag | An array of the same size as containing the imaginary parts of the values of the computed generalized eigenvalues. |
[out] | beta | An array of the same size as containing the values of computed generalized eigenvalues. |
starneig_error_t starneig_GEP_SM_Reduce | ( | int | n, |
double | A[], | ||
int | ldA, | ||
double | B[], | ||
int | ldB, | ||
double | Q[], | ||
int | ldQ, | ||
double | Z[], | ||
int | ldZ, | ||
double | real[], | ||
double | imag[], | ||
double | beta[], | ||
int(*)(double real, double imag, double beta, void *arg) | predicate, | ||
void * | arg, | ||
int | selected[], | ||
int * | num_selected | ||
) |
Computes a (reordered) generalized Schur decomposition given a general matrix pencil.
[in] | n | The order of , , and . |
[in,out] | A | On entry, the general matrix . On exit, the Schur matrix . |
[in] | ldA | The leading dimension of . |
[in,out] | B | On entry, the general matrix . On exit, the upper triangular matrix . |
[in] | ldB | The leading dimension of . |
[in,out] | Q | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldQ | The leading dimension of . |
[in,out] | Z | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldZ | The leading dimension of . |
[out] | real | An array of the same size as containing the real parts of the values of the computed generalized eigenvalues. |
[out] | imag | An array of the same size as containing the imaginary parts of the values of the computed generalized eigenvalues. |
[out] | beta | An array of the same size as containing the values of computed generalized eigenvalues. |
[in] | predicate | A function that takes a (complex) generalized eigenvalue as input and returns non-zero if it should be selected. For complex conjugate pairs of generalized eigenvalues, the predicate is called only for the generalized eigenvalue with positive imaginary part and the corresponding block is either selected or deselected. The reordering step is skipped if the argument is a NULL pointer. |
[in] | arg | An optional argument for the predicate function. |
[out] | selected | The final positions of all correctly placed selected generalized eigenvalues. |
[out] | num_selected | The number of selected generalized eigenvalues (a complex conjugate pair is counted as two selected generalized eigenvalues). |
starneig_error_t starneig_GEP_SM_Eigenvectors | ( | int | n, |
int | selected[], | ||
double | S[], | ||
int | ldS, | ||
double | T[], | ||
int | ldT, | ||
double | Z[], | ||
int | ldZ, | ||
double | X[], | ||
int | ldX | ||
) |
Computes a generalized eigenvector for each selected generalized eigenvalue.
[in] | n | The order of and and the number of rows of . |
[in] | selected | The selection array specifying the locations of the selected generalized eigenvalues. The number of 1's in the array is the same as the number of columns in . |
[in] | S | The Schur matrix . |
[in] | ldS | The leading dimension of . |
[in] | T | The upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in] | Z | The orthogonal matrix . |
[in] | ldZ | The leading dimension of . |
[out] | X | A matrix with rows and one column for each selected generalized eigenvalue. The columns represent the computed generalized eigenvectors as previously described. |
[in] | ldX | The leading dimension of . |
starneig_error_t starneig_GEP_SM_Select | ( | int | n, |
double | S[], | ||
int | ldS, | ||
double | T[], | ||
int | ldT, | ||
int(*)(double real, double imag, double beta, void *arg) | predicate, | ||
void * | arg, | ||
int | selected[], | ||
int * | num_selected | ||
) |
Generates a selection array for a Schur-triangular matrix pencil using a user-supplied predicate function.
[in] | n | The order of and . |
[in] | S | The Schur matrix . |
[in] | ldS | The leading dimension of . |
[in] | T | The upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in] | predicate | A function that takes a (complex) generalized eigenvalue as input and returns non-zero if it should be selected. For complex conjugate pairs of generalized eigenvalues, the predicate is called only for the generallized eigenvalue with positive imaginary part and the corresponding block is either selected or deselected. |
[in] | arg | An optional argument for the predicate function. |
[out] | selected | The selection array. Both elements of a selected complex conjugate pair are set to 1. |
[out] | num_selected | The number of selected generalized eigenvalues (a complex conjugate pair is counted as two selected generalized eigenvalues). |
starneig_error_t starneig_GEP_SM_Schur_expert | ( | struct starneig_schur_conf * | conf, |
int | n, | ||
double | H[], | ||
int | ldH, | ||
double | T[], | ||
int | ldT, | ||
double | Q[], | ||
int | ldQ, | ||
double | Z[], | ||
int | ldZ, | ||
double | real[], | ||
double | imag[], | ||
double | beta[] | ||
) |
Computes a generalized Schur decomposition given a Hessenberg-triangular decomposition.
[in] | conf | Configuration structure. |
[in] | n | The order of , , and . |
[in,out] | H | On entry, the upper Hessenberg matrix . On exit, the Schur matrix . |
[in] | ldH | The leading dimension of . |
[in,out] | T | On entry, the upper triangular matrix . On exit, the upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in,out] | Q | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldQ | The leading dimension of . |
[in,out] | Z | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldZ | The leading dimension of . |
[out] | real | An array of the same size as containing the real parts of the values of the computed generalized eigenvalues. |
[out] | imag | An array of the same size as containing the imaginary parts of the values of the computed generalized eigenvalues. |
[out] | beta | An array of the same size as containing the values of computed generalized eigenvalues. |
starneig_error_t starneig_GEP_SM_ReorderSchur_expert | ( | struct starneig_reorder_conf * | conf, |
int | n, | ||
int | selected[], | ||
double | S[], | ||
int | ldS, | ||
double | T[], | ||
int | ldT, | ||
double | Q[], | ||
int | ldQ, | ||
double | Z[], | ||
int | ldZ, | ||
double | real[], | ||
double | imag[], | ||
double | beta[] | ||
) |
Reorders selected eigenvalues to the top left corner of a generalized Schur decomposition.
[in] | conf | Configuration structure. |
[in] | n | The order of , , and . |
[in,out] | selected | The selection array. |
[in,out] | S | On entry, the Schur matrix . On exit, the updated Schur matrix . |
[in] | ldS | The leading dimension of . |
[in,out] | T | On entry, the upper triangular . On exit, the updates upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in,out] | Q | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldQ | The leading dimension of . |
[in,out] | Z | On entry, the orthogonal matrix . On exit, the product matrix . |
[in] | ldZ | The leading dimension of . |
[out] | real | An array of the same size as containing the real parts of the values of the computed generalized eigenvalues. |
[out] | imag | An array of the same size as containing the imaginary parts of the values of the computed generalized eigenvalues. |
[out] | beta | An array of the same size as containing the values of computed generalized eigenvalues. |
starneig_error_t starneig_GEP_SM_Eigenvectors_expert | ( | struct starneig_eigenvectors_conf * | conf, |
int | n, | ||
int | selected[], | ||
double | S[], | ||
int | ldS, | ||
double | T[], | ||
int | ldT, | ||
double | Z[], | ||
int | ldZ, | ||
double | X[], | ||
int | ldX | ||
) |
Computes a generalized eigenvector for each selected generalized eigenvalue.
[in] | conf | Configuration structure. |
[in] | n | The order of and and the number of rows of . |
[in] | selected | The selection array specifying the locations of the selected generalized eigenvalues. The number of 1's in the array is the same as the number of columns in . |
[in] | S | The Schur matrix . |
[in] | ldS | The leading dimension of . |
[in] | T | The upper triangular matrix . |
[in] | ldT | The leading dimension of . |
[in] | Z | The orthogonal matrix . |
[in] | ldZ | The leading dimension of . |
[out] | X | A matrix with rows and one column for each selected generalized eigenvalue. The columns represent the computed generalized eigenvectors as previously described. |
[in] | ldX | The leading dimension of . |