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| double | numeric::linear_algebra::epslon (double const &x) |
| | Estimate unit roundoff in quantities of size x. More...
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| void | numeric::linear_algebra::qzhes (int const &nm, int const &n, arr_ref< double, 2 > a, arr_ref< double, 2 > b, bool const &matz, arr_ref< double, 2 > z) |
| | This subroutine is the first step of the QZ algorithm for solving generalized matrix eigenvalue problems. More...
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| void | numeric::linear_algebra::qzit (int const &nm, int const &n, arr_ref< double, 2 > a, arr_ref< double, 2 > b, double const &eps1, bool const &matz, arr_ref< double, 2 > z, int &ierr) |
| | This subroutine is the second step of the QZ algorithm for solving generalized matrix eigenvalue problems. More...
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| void | numeric::linear_algebra::qzval (int const &nm, int const &n, arr_ref< double, 2 > a, arr_ref< double, 2 > b, arr_ref< double > alfr, arr_ref< double > alfi, arr_ref< double > beta, bool const &matz, arr_ref< double, 2 > z) |
| | This subroutine is the third step of the QZ algorithm for solving generalized matrix eigenvalue problems,. More...
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| void | numeric::linear_algebra::qzvec (int const &nm, int const &n, arr_cref< double, 2 > a, arr_ref< double, 2 > b, arr_cref< double > alfr, arr_cref< double > alfi, arr_cref< double > beta, arr_ref< double, 2 > z) |
| | This subroutine is the optional fourth step of the QZ algorithm for solving generalized matrix eigenvalue problems. More...
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| void | numeric::linear_algebra::rgg (int const &nm, int const &n, arr_ref< double, 2 > a, arr_ref< double, 2 > b, arr_ref< double > alfr, arr_ref< double > alfi, arr_ref< double > beta, int const &matz, arr_ref< double, 2 > z, int &ierr) |
| | This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) for the real general generalized eigenproblem  . More...
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1.8.7