Man pages for elpa_solve_evp_real and elpa_solve_evp_complex

38ca4752 · Andreas Marek · 248f1e9f · 38ca4752 · 38ca4752 · 38ca4752
Commit 38ca4752 authored Oct 10, 2016 by Andreas Marek
--- a/man/elpa2_print_kernels.1
+++ b/man/elpa2_print_kernels.1
@@ -23,5 +23,5 @@ A. Marek, MPCDF
 .SH "Reporting bugs"
 Report bugs to the ELPA mail elpa-library@mpcdf.mpg.de
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_real\fP(3) \fBsolve_evp_complex\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3)\fBelpa_solve_evp_real_1stage\fP(3) \fBelpa_solve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3)

--- a/man/get_elpa_communicators.3
+++ b/man/get_elpa_communicators.3
@@ -57,4 +57,4 @@ Old, depcreated interface, which will be deleted at some point: Please use \fBel
 All ELPA routines need MPI communicators for communicating within rows or columns of processes. These communicators are created from the \fBmpi_comm_global\fP communicator. It is assumed that the matrix used in ELPA is distributed with \fBmy_prow\fP rows and \fBmy_pcol\fP columns on the calling process. This function has to be envoked by all involved processes before any other calls to ELPA routines.
 .br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_real\fP(3) \fBsolve_evp_complex\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/get_elpa_row_col_comms.3
+++ b/man/get_elpa_row_col_comms.3
@@ -59,4 +59,4 @@ Old, depcreated interface, which will be deleted at some point: Please use \fBel
 All ELPA routines need MPI communicators for communicating within rows or columns of processes. These communicators are created from the \fBmpi_comm_global\fP communicator. It is assumed that the matrix used in ELPA is distributed with \fBmy_prow\fP rows and \fBmy_pcol\fP columns on the calling process. This function has to be envoked by all involved processes before any other calls to ELPA routines.
 .br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_real\fP(3) \fBsolve_evp_complex\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/solve_evp_complex.3
+++ b/man/solve_evp_complex.3
@@ -45,7 +45,8 @@ use elpa1
 .RI "logical                    \fBsuccess\fP:       return value indicating success or failure"
 .br
 .SH DESCRIPTION
+Old, deprecated interface, which will be deleted at some point. Use \fBsolve_evp_complex_1stage\fP(3) or \fBelpa_solve_evp_complex\fP(3).
 Solve the complex eigenvalue problem with the 1-stage solver. 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. The solver will compute the first \fBnev\fP eigenvalues, which will be stored on exit in \fBev\fP. The eigenvectors corresponding to the eigenvalues will be stored in \fBq\fP. All memory of the arguments must be allocated outside the call to the solver.
 .br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/solve_evp_complex_1stage.3
+++ b/man/solve_evp_complex_1stage.3
@@ -84,5 +84,7 @@ use elpa1
 .SH DESCRIPTION
 Solve the complex eigenvalue problem with the 1-stage solver. 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. The solver will compute the first \fBnev\fP eigenvalues, which will be stored on exit in \fBev\fP. The eigenvectors corresponding to the eigenvalues will be stored in \fBq\fP. All memory of the arguments must be allocated outside the call to the solver.
 .br
+The interface \fBelpa_solve_evp_complex\fP(3) is a more flexible alternative.
+.br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/solve_evp_complex_2stage.3
+++ b/man/solve_evp_complex_2stage.3
@@ -12,7 +12,7 @@ use elpa1
 use elpa2
 .br
 .br
-.RI  "success = \fBsolve_evp_real_2stage\fP (na, nev, a(lda,matrixCols), ev(nev), q(ldq, matrixCols), ldq, nblk, matrixCols, mpi_comm_rows, mpi_comm_cols, mpi_comm_all, THIS_REAL_ELPA_KERNEL)"
+.RI  "success = \fBsolve_evp_real_2stage\fP (na, nev, a(lda,matrixCols), ev(nev), q(ldq, matrixCols), ldq, nblk, matrixCols, mpi_comm_rows, mpi_comm_cols, mpi_comm_all, THIS_COMPLEX_ELPA_KERNEL=THIS_COMPLEX_ELPA_KERNEL)"
 .br
 .RI " "
 .br
@@ -43,6 +43,8 @@ use elpa2
 .br
 .RI "integer,     intent(in)    \fBmpi_comm_all\fP:             communicator for all processes in the processor set involved in ELPA"
 .br
+.RI "int                        \fBTHIS_ELPA_COMPLEX_KERNEL\fp: choose the compute kernel for 2-stage solver"
+
 .RI "logical                    \fBsuccess\fP:                  return value indicating success or failure"
 .br
 .SS C INTERFACE
@@ -51,7 +53,7 @@ use elpa2
 #include <complex.h>

 .br
-.RI "success = \fBsolve_evp_complex_2stage\fP (\fBint\fP na, \fBint\fP nev, \fB double complex *\fPa, \fBint\fP lda, \fB double *\fPev, \fBdouble complex *\fPq, \fBint\fP ldq, \fBint\fP nblk, \fBint\fP matrixCols, \fBint\fP mpi_comm_rows, \fBint\fP mpi_comm_cols, \fBint\fP mpi_comm_all, \fBint\fP THIS_ELPA_REAL_KERNEL);"
+.RI "success = \fBsolve_evp_complex_2stage\fP (\fBint\fP na, \fBint\fP nev, \fB double complex *\fPa, \fBint\fP lda, \fB double *\fPev, \fBdouble complex *\fPq, \fBint\fP ldq, \fBint\fP nblk, \fBint\fP matrixCols, \fBint\fP mpi_comm_rows, \fBint\fP mpi_comm_cols, \fBint\fP mpi_comm_all, \fBint\fP THIS_ELPA_COMPLEX_KERNEL);"
 .br
 .RI " "
 .br
@@ -82,10 +84,16 @@ use elpa2
 .br
 .RI "int             \fBmpi_comm_all\fP:             communicator for all processes in the processor set involved in ELPA"
 .br
+.RI "int             \fBTHIS_ELPA_COMPLEX_KERNEL\fp: choose the compute kernel for 2-stage solver"
+.br
+.RI "char           *\fBmethod\fP:                   use 1stage solver if "1stage", use 2stage solver if "2stage", (at the moment) use 2stage solver if "auto" "
+
 .RI "int             \fBsuccess\fP:       return value indicating success (1) or failure (0)

 .SH DESCRIPTION
 Solve the complex eigenvalue problem with the 2-stage solver. 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. The solver will compute the first \fBnev\fP eigenvalues, which will be stored on exit in \fBev\fP. The eigenvectors corresponding to the eigenvalues will be stored in \fBq\fP. All memory of the arguments must be allocated outside the call to the solver.
 .br
+The interface \fBelpa_solve_evp_complex\fP(3) is a more flexible alternative.
+.br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/solve_evp_real.3
+++ b/man/solve_evp_real.3
@@ -45,7 +45,8 @@ use elpa1
 .RI "logical                \fBsuccess\fP:       return value indicating success or failure"
 .br
 .SH DESCRIPTION
+Old, deprecated interface, which will be deleted at some point. Use \fBsolve_evp_real_1stage\fP(3) or \fBelpa_solve_evp_real\fP(3).
 Solve the real eigenvalue problem with the 1-stage solver. 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. The solver will compute the first \fBnev\fP eigenvalues, which will be stored on exit in \fBev\fP. The eigenvectors corresponding to the eigenvalues will be stored in \fBq\fP. All memory of the arguments must be allocated outside the call to the solver.
 .br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/solve_evp_real_1stage.3
+++ b/man/solve_evp_real_1stage.3
@@ -82,5 +82,7 @@ use elpa1
 .SH DESCRIPTION
 Solve the real eigenvalue problem with the 1-stage solver. 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. The solver will compute the first \fBnev\fP eigenvalues, which will be stored on exit in \fBev\fP. The eigenvectors corresponding to the eigenvalues will be stored in \fBq\fP. All memory of the arguments must be allocated outside the call to the solver.
 .br
+The interface \fBelpa_solve_evp_real\fP(3) is a more flexible alternative.
+.br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_real_2stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
--- a/man/solve_evp_real_2stage.3
+++ b/man/solve_evp_real_2stage.3
@@ -43,6 +43,8 @@ use elpa2
 .br
 .RI "integer, intent(in)            \fBmpi_comm_all\fP:  communicator for all processes in the processor set involved in ELPA"
 .br
+.RI "integer, intent(in), optional  \fBTHIS_ELPA_REAL_KERNEL\fp: choose the compute kernel for 2-stage solver"
+.br
 .RI "logical, intent(in), optional: \fBuseQR\fP:         optional argument; switches to QR-decomposition if set to .true."

 .RI "logical                        \fBsuccess\fP:       return value indicating success or failure"
@@ -82,6 +84,8 @@ use elpa2
 .br
 .RI "int     \fBmpi_comm_all\fP:          communicator for all processes in the processor set involved in ELPA"
 .br
+.RI "int     \fBTHIS_ELPA_REAL_KERNEL\fp: choose the compute kernel for 2-stage solver"
+.br
 .RI "int     \fBuseQR\fP:                 if set to 1 switch to QR-decomposition"

 .RI "int     \fBsuccess\fP:               return value indicating success (1) or failure (0)
@@ -89,5 +93,7 @@ use elpa2
 .SH DESCRIPTION
 Solve the real eigenvalue problem with the 2-stage solver. 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. The solver will compute the first \fBnev\fP eigenvalues, which will be stored on exit in \fBev\fP. The eigenvectors corresponding to the eigenvalues will be stored in \fBq\fP. All memory of the arguments must be allocated outside the call to the solver.
 .br
+The interface \fBelpa_solve_evp_real\fP(3) is a more flexible alternative.
+.br
 .SH "SEE ALSO"
-\fBelpa_get_communicators\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)
+\fBelpa_get_communicators\fP(3) \fBelpa_solve_evp_real\fP(3) \fBelpa_solve_evp_complex\fP(3) \fBsolve_evp_real_1stage\fP(3) \fBsolve_evp_complex_1stage\fP(3) \fBsolve_evp_complex_2stage\fP(3) \fBelpa2_print_kernels\fP(1)