1elpa_invert_trm_complex_singLlieb(r3a)ry Functions Mealnpuaa_linvert_trm_complex_single(3)
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NAME

6       elpa_invert_trm_complex_single - Invert a upper triangular matrix
7       (legacy interface)
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SYNOPSIS

11   FORTRAN INTERFACE
12       use elpa1
13       success = elpa_invert_trm_complex_single (na, a, lda, nblk, matrixCols,
14       mpi_comm_rows, mpi_comm_cols, wantDebug)
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16       With the definitions of the input and output variables:
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18       integer, intent(in)        na:            Order of matrix a
19       complex*8,  intent(inout)  a:             locally distributed part of
20       the matrix a. The local dimensions are lda x ldaCols. Only upper
21       triangule needs to be set. The lower triangle is not referenced
22       integer, intent(in)        lda:           leading dimension of locally
23       distributed matrix a
24       integer, intent(in)        nblk:          blocksize of cyclic
25       distribution, must be the same in both directions
26       integer, intent(in)        matrixCols:    number of columns of locally
27       distributed matrices a
28       integer, intent(in)        mpi_comm_rows: communicator for
29       communication in rows. Constructed with elpa_get_communicators(3)
30       integer, intent(in)        mpi_comm_cols: communicator for
31       communication in colums. Constructed with elpa_get_communicators(3)
32       logical, intent(in)        wantDebug:     if .true. , print more debug
33       information in case of an error
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35       logical                    success:       return value indicating
36       success or failure
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38   C INTERFACE
39       #include "elpa_legacy.h"
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41       int success = elpa_invert_trm_complex_single (int na,  complex *a, int
42       lda, int nblk, int matrixCols, int mpi_comm_rows, int mpi_comm_cols,
43       int wantDebug);
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45       With the definitions of the input and output variables:
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47       int na:               Order of matrix a
48       complex *a:           locally distributed part of the matrix a. The
49       local dimensions are lda x matrixCols
50       int lda:              leading dimension of locally distributed matrix a
51       int nblk:             blocksize of cyclic distribution, must be the
52       same in both directions
53       int matrixCols:       number of columns of locally distributed matrices
54       a
55       int mpi_comm_rows:    communicator for communication in rows.
56       Constructed with get_elpa_communicators(3)
57       int mpi_comm_cols:    communicator for communication in colums.
58       Constructed with get_elpa_communicators(3)
59       int wantDebug:        give more debugging information
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61       int     success:       return value indicating success (1) or failure
62       (0)
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DESCRIPTION

66       Inverts a upper triangular matrix a. The ELPA communicators
67       mpi_comm_rows and mpi_comm_cols are obtained with the
68       elpa_get_communicators(3) function.
69       This function is part of the legacy API of the ELPA library. Better use
70       the current API.
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SEE ALSO

73       Old interface: elpa_get_communicators(3) elpa_invert_trm_real_double(3)
74       elpa_invert_trm_real_single(3) elpa_invert_trm_complex_double(3)
75       Current interface: elpa2_print_kernels(1)
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79ELPA                            Wed May 17 201e7lpa_invert_trm_complex_single(3)
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