Commit 3677a085 authored by Andreas Marek's avatar Andreas Marek

Typo in man pages

parent 72dc0e5b
......@@ -2,7 +2,7 @@
.ad l
.nh
.SH NAME
elpa_cholesky \- do a Cholesky factorization of a real symmetric or complex hermetian matrix
elpa_cholesky \- do a Cholesky factorization of a real symmetric or complex hermitian matrix
.br
.SH SYNOPSIS
......@@ -51,7 +51,7 @@ The matrix which should be decomposed. The dimensions of the matrix must be set
The error code of the function. Should be "ELPA_OK". The error codes can be querried with \fBelpa_strerr\fP(3)
.SH DESCRIPTION
Compute the Cholesky decomposition of a real symmtric or complex hermetian matrix.The functions \fBelpa_init\fP(3), \fBelpa_allocate\fP(3), \fBelpa_set\fP(3), and \fBelpa_setup\fP(3) must be called \fIBEFORE\fP \fBelpa_eigenvalues\fP can be called.
Compute the Cholesky decomposition of a real symmtric or complex hermitian matrix.The functions \fBelpa_init\fP(3), \fBelpa_allocate\fP(3), \fBelpa_set\fP(3), and \fBelpa_setup\fP(3) must be called \fIBEFORE\fP \fBelpa_eigenvalues\fP can be called.
.br
.SH "SEE ALSO"
.br
......
......@@ -2,7 +2,7 @@
.ad l
.nh
.SH NAME
elpa_cholesky_complex \- Cholesky factorization of a complex hermetian matrix (legacy interface)
elpa_cholesky_complex \- Cholesky factorization of a complex hermitian matrix (legacy interface)
.br
.SH SYNOPSIS
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -46,7 +46,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -69,7 +69,7 @@ use elpa1
.RI "int \fBsuccess\fP: return value indicating success (1) or failure (0)
.SH DESCRIPTION
Does a Cholesky factorization of a complex, hermetian matrix. The ELPA communicators \fBmpi_comm_rows\fP and \fBmpi_comm_cols\fP are obtained with the \fBelpa_get_communicators\fP(3) function. The distributed quadratic marix \fBa\fP has global dimensions \fBna\fP x \fBna\fP, and a local size \fBlda\fP x \fBmatrixCols\fP.
Does a Cholesky factorization of a complex, hermitian matrix. The ELPA communicators \fBmpi_comm_rows\fP and \fBmpi_comm_cols\fP are obtained with the \fBelpa_get_communicators\fP(3) function. The distributed quadratic marix \fBa\fP has global dimensions \fBna\fP x \fBna\fP, and a local size \fBlda\fP x \fBmatrixCols\fP.
.br
This function is part of the legacy API of the ELPA library. Better use the current API.
.br
......
......@@ -2,7 +2,7 @@
.ad l
.nh
.SH NAME
elpa_cholesky_complex_double \- Cholesky factorization of a complex hermetian matrix (legacy interface)
elpa_cholesky_complex_double \- Cholesky factorization of a complex hermitian matrix (legacy interface)
.br
.SH SYNOPSIS
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -54,7 +54,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -83,7 +83,7 @@ use elpa1
.RI "int \fBsuccess\fP: return value indicating success (1) or failure (0)
.SH DESCRIPTION
Does a Cholesky factorization of a complex, hermetian matrix. The ELPA communicators \fBmpi_comm_rows\fP and \fBmpi_comm_cols\fP are obtained with the \fBelpa_get_communicators\fP(3) function. The distributed quadratic marix \fBa\fP has global dimensions \fBna\fP x \fBna\fP, and a local size \fBlda\fP x \fBmatrixCols\fP.
Does a Cholesky factorization of a complex, hermitian matrix. The ELPA communicators \fBmpi_comm_rows\fP and \fBmpi_comm_cols\fP are obtained with the \fBelpa_get_communicators\fP(3) function. The distributed quadratic marix \fBa\fP has global dimensions \fBna\fP x \fBna\fP, and a local size \fBlda\fP x \fBmatrixCols\fP.
.br
This function is part of the legacy API of the ELPA library. Better use the current API.
.br
......
......@@ -2,7 +2,7 @@
.ad l
.nh
.SH NAME
elpa_cholesky_complex_single \- Cholesky factorization of a complex hermetian matrix (legacy interface)
elpa_cholesky_complex_single \- Cholesky factorization of a complex hermitian matrix (legacy interface)
.br
.SH SYNOPSIS
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -46,7 +46,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -69,7 +69,7 @@ use elpa1
.RI "int \fBsuccess\fP: return value indicating success (1) or failure (0)
.SH DESCRIPTION
Does a Cholesky factorization of a complex, hermetian matrix. The ELPA communicators \fBmpi_comm_rows\fP and \fBmpi_comm_cols\fP are obtained with the \fBelpa_get_communicators\fP(3) function. The distributed quadratic marix \fBa\fP has global dimensions \fBna\fP x \fBna\fP, and a local size \fBlda\fP x \fBmatrixCols\fP.
Does a Cholesky factorization of a complex, hermitian matrix. The ELPA communicators \fBmpi_comm_rows\fP and \fBmpi_comm_cols\fP are obtained with the \fBelpa_get_communicators\fP(3) function. The distributed quadratic marix \fBa\fP has global dimensions \fBna\fP x \fBna\fP, and a local size \fBlda\fP x \fBmatrixCols\fP.
.br
This function is part of the legacy API of the ELPA library. Better use the current API.
.br
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -44,7 +44,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -44,7 +44,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -44,7 +44,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -2,7 +2,7 @@
.ad l
.nh
.SH NAME
elpa_eigenvalues \- computes the eigenvalues of a real symmetric or complex hermetian matrix
elpa_eigenvalues \- computes the eigenvalues of a real symmetric or complex hermitian matrix
.br
.SH SYNOPSIS
......@@ -27,7 +27,7 @@ class(elpa_t), pointer :: elpa
The matrix a for which the eigenvalues should be computed. The dimensions of matrix a must be set \fIBEFORE\fP with the methods \fBelpa_set\fP(3) and \fBelpa_setup\fP(3). The datatype of the matrix can be one of "real(kind=c_double)", "real(kind=c_float)", "complex(kind=c_double)", or "complex(kind=c_float)"
.TP
.RI "datatype :: \fBev\fP"
The vector ev where the eigenvalues will be stored in \fIascending\fP order. The datatype of the vector ev can be either "real(kind=c_double)", or "real(kind=c_float)", depending of the datatype of the matrix. Note that complex hermetian matrices also have real valued eigenvalues.
The vector ev where the eigenvalues will be stored in \fIascending\fP order. The datatype of the vector ev can be either "real(kind=c_double)", or "real(kind=c_float)", depending of the datatype of the matrix. Note that complex hermitian matrices also have real valued eigenvalues.
.TP
.RI "integer, optional :: \fBerror\fP"
The return error code of the function. Should be "ELPA_OK". The error code can be querried with the function \fBelpa_strerr\fP(3)
......@@ -54,13 +54,13 @@ The handle to the ELPA object
The matrix a for which the eigenvalues should be computed. The dimensions of the matrix must be set \fIBEFORE\fP with the methods \fBelpa_set\fP(3) and \fBelpa_setup\fP(3). The \fBdatatype\fP can be one of "double", "float", "double complex", or "float complex".
.TP
.RI "datatype *\fBev\fP;"
The storage for the computed eigenvalues. Eigenvalues will be stored in \fIascendig\fP order. The \fBdatatype\fP can be either "double" or "float". Note that the eigenvalues of complex hermetian matrices are also real.
The storage for the computed eigenvalues. Eigenvalues will be stored in \fIascendig\fP order. The \fBdatatype\fP can be either "double" or "float". Note that the eigenvalues of complex hermitian matrices are also real.
.TP
.RI "int *\fBerror\fP;"
The error code of the function. Should be "ELPA_OK". The error codes can be querried with \fBelpa_strerr\fP(3)
.SH DESCRIPTION
Compute the eigenvalues of a real symmtric or complex hermetian matrix.The functions \fBelpa_init\fP(3), \fBelpa_allocate\fP(3), \fBelpa_set\fP(3), and \fBelpa_setup\fP(3) must be called \fIBEFORE\fP \fBelpa_eigenvalues\fP can be called.
Compute the eigenvalues of a real symmtric or complex hermitian matrix.The functions \fBelpa_init\fP(3), \fBelpa_allocate\fP(3), \fBelpa_set\fP(3), and \fBelpa_setup\fP(3) must be called \fIBEFORE\fP \fBelpa_eigenvalues\fP can be called.
.br
.SH "SEE ALSO"
.br
......
......@@ -2,7 +2,7 @@
.ad l
.nh
.SH NAME
elpa_eigenvectors \- computes the eigenvalues and (part of) the eigenvector spectrum for a real symmetric or complex hermetian matrix
elpa_eigenvectors \- computes the eigenvalues and (part of) the eigenvector spectrum for a real symmetric or complex hermitian matrix
.br
.SH SYNOPSIS
......@@ -27,7 +27,7 @@ class(elpa_t), pointer :: elpa
The matrix a for which the eigenvalues should be computed. The dimensions of matrix a must be set \fIBEFORE\fP with the methods \fBelpa_set\fP(3) and \fBelpa_setup\fP(3). The datatype of the matrix can be one of "real(kind=c_double)", "real(kind=c_float)", "complex(kind=c_double)", or "complex(kind=c_float)"
.TP
.RI "datatype :: \fBev\fP"
The vector ev where the eigenvalues will be stored in \fIascending\fP order. The datatype of the vector ev can be either "real(kind=c_double)", or "real(kind=c_float)", depending of the datatype of the matrix. Note that complex hermetian matrices also have real valued eigenvalues.
The vector ev where the eigenvalues will be stored in \fIascending\fP order. The datatype of the vector ev can be either "real(kind=c_double)", or "real(kind=c_float)", depending of the datatype of the matrix. Note that complex hermitian matrices also have real valued eigenvalues.
.RI "datatype :: \fBq\fP"
The storage space for the computed eigenvectors. The dimensions of matrix a must be set \fIBEFORE\fP with the methods \fBelpa_set\fP(3) and \fBelpa_setup\fP(3). The datatype of the matrix can be one of "real(kind=c_double)", "real(kind=c_float)", "complex(kind=c_double)", or "complex(kind=c_float)"
.TP
......@@ -56,7 +56,7 @@ The handle to the ELPA object
The matrix a for which the eigenvalues should be computed. The dimensions of the matrix must be set \fIBEFORE\fP with the methods \fBelpa_set\fP(3) and \fBelpa_setup\fP(3). The \fBdatatype\fP can be one of "double", "float", "double complex", or "float complex".
.TP
.RI "datatype *\fBev\fP;"
The storage for the computed eigenvalues. Eigenvalues will be stored in \fIascendig\fP order. The \fBdatatype\fP can be either "double" or "float". Note that the eigenvalues of complex hermetian matrices are also real.
The storage for the computed eigenvalues. Eigenvalues will be stored in \fIascendig\fP order. The \fBdatatype\fP can be either "double" or "float". Note that the eigenvalues of complex hermitian matrices are also real.
.TP
.RI "datatype *\fBq\fP;"
The storage space for the computed eigenvectors. The dimensions of the matrix must be set \fIBEFORE\fP with the methods \fBelpa_set\fP(3) and \fBelpa_setup\fP(3). The \fBdatatype\fP can be one of "double", "float", "double complex", or "float complex".
......@@ -65,7 +65,7 @@ The storage space for the computed eigenvectors. The dimensions of the matrix mu
The error code of the function. Should be "ELPA_OK". The error codes can be querried with \fBelpa_strerr\fP(3)
.SH DESCRIPTION
Compute the eigenvalues and (parts of) the eigenvector spectrum of a real symmtric or complex hermetian matrix.The functions \fBelpa_init\fP(3), \fBelpa_allocate\fP(3), \fBelpa_set\fP(3), and \fBelpa_setup\fP(3) must be called \fIBEFORE\fP \fBelpa_eigenvalues\fP can be called. Especially the number of eigenvectors to be computed can be set with \fPelpa_set\fB(3)
Compute the eigenvalues and (parts of) the eigenvector spectrum of a real symmtric or complex hermitian matrix.The functions \fBelpa_init\fP(3), \fBelpa_allocate\fP(3), \fBelpa_set\fP(3), and \fBelpa_setup\fP(3) must be called \fIBEFORE\fP \fBelpa_eigenvalues\fP can be called. Especially the number of eigenvectors to be computed can be set with \fPelpa_set\fB(3)
.br
.SH "SEE ALSO"
.br
......
......@@ -15,7 +15,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -60,7 +60,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -56,7 +56,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -56,7 +56,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -56,7 +56,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -59,7 +59,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -59,7 +59,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -60,7 +60,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -60,7 +60,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -17,7 +17,7 @@ use elpa_driver
.br
.RI "Generalized interface to the ELPA 1stage and 2stage solver for real-valued problems"
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -62,7 +62,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -55,7 +55,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -54,7 +54,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -55,7 +55,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -59,7 +59,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -59,7 +59,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -17,7 +17,7 @@ use elpa_driver
.br
.RI "Generalized interface to the ELPA 1stage and 2stage solver for real-valued problems"
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -62,7 +62,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -17,7 +17,7 @@ use elpa_driver
.br
.RI "Generalized interface to the ELPA 1stage and 2stage solver for real-valued problems"
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -62,7 +62,7 @@ use elpa_driver
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -50,7 +50,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -50,7 +50,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -50,7 +50,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -58,7 +58,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -57,7 +57,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -56,7 +56,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -17,7 +17,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -60,7 +60,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -57,7 +57,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -57,7 +57,7 @@ use elpa2
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -16,7 +16,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -56,7 +56,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -55,7 +55,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......
......@@ -15,7 +15,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "integer, intent(in) \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......@@ -55,7 +55,7 @@ use elpa1
.br
.RI " "
.br
.RI "With the definintions of the input and output variables:"
.RI "With the definitions of the input and output variables:"
.br
.RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve"
......