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36 #ifndef _EIGENSOLVER_H
37 #define _EIGENSOLVER_H
39 #include "types/simple.h"
40 #include "sparsematrix.h"
43 /** Calculate eigenvalues/vectors a matrix stored in linear memory (not sparse).
45 * This routine uses lapack to diagonalize a matrix efficiently, and
46 * the eigenvalues/vectors will be sorted in ascending order on output.
47 * Gromacs comes with a built-in portable BLAS/LAPACK, but if performance
48 * matters it is advisable to link with an optimized vendor-provided library.
50 * \param a Pointer to matrix data, total size n*n
51 * The input data in the matrix will be destroyed/changed.
52 * \param n Side of the matrix to calculate eigenvalues for.
53 * \param index_lower Index of first eigenvector to determine.
54 * \param index_upper Last eigenvector determined is index_upper-1.
55 * \param eigenvalues Array of the eigenvalues on return. The length
56 * of this array _must_ be n, even if not all
57 * eigenvectors are calculated, since all eigenvalues
58 * might be needed as an intermediate step.
59 * \param eigenvectors If this pointer is non-NULL, the eigenvectors
60 * specified by the indices are returned as rows of
61 * a matrix, i.e. eigenvector j starts at offset j*n, and
74 /*! \brief Sparse matrix eigensolver.
76 * This routine is intended for large matrices that might not fit in memory.
78 * It will determine the neig lowest eigenvalues, and if the eigenvectors pointer
79 * is non-NULL also the corresponding eigenvectors.
81 * maxiter=100000 should suffice in most cases!
84 sparse_eigensolver(gmx_sparsematrix_t
* A
,