.TH "solve_evp_complex_2stage_single" 3 "Wed May 17 2017" "ELPA" \" -*- nroff -*- .ad l .nh .SH NAME solve_evp_complex_2stage_single \- solve the single-precision complex eigenvalue problem with the 2-stage ELPA solver (legacy interface) .br .SH SYNOPSIS .br .SS FORTRAN INTERFACE use elpa1 use elpa2 .br .br .RI "success = \fBsolve_evp_real_2stage_single\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, useGPU)" .br .RI " " .br .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" .br .RI "integer, intent(in) \fBnev\fP: number of eigenvalues to be computed; the first \fBnev\fP eigenvalules are calculated" .br .RI "complex*8, intent(inout) \fBa\fP: locally distributed part of the matrix \fBa\fP. The local dimensions are \fBlda\fP x \fBmatrixCols\fP" .br .RI "integer, intent(in) \fBlda\fP: leading dimension of locally distributed matrix \fBa\fP" .br .RI "real*4, intent(inout) \fBev\fP: on output the first \fBnev\fP computed eigenvalues" .br .RI "complex*8, intent(inout) \fBq\fP: on output the first \fBnev\fP computed eigenvectors" .br .RI "integer, intent(in) \fBldq\fP: leading dimension of matrix \fBq\fP which stores the eigenvectors" .br .RI "integer, intent(in) \fBnblk\fP: blocksize of block cyclic distributin, must be the same in both directions" .br .RI "integer, intent(in) \fBmatrixCols\fP: number of columns of locally distributed matrices \fBa\fP and \fBq\fP" .br .RI "integer, intent(in) \fBmpi_comm_rows\fP: communicator for communication in rows. Constructed with \fBelpa_get_communicators\fP(3)" .br .RI "integer, intent(in) \fBmpi_comm_cols\fP: communicator for communication in colums. Constructed with \fBelpa_get_communicators\fP(3)" .br .RI "integer, intent(in) \fBmpi_comm_all\fP: communicator for all processes in the processor set involved in ELPA" .br .RI "logical, intent(in), optional: \fBuseGPU\fP: decide whether GPUs should be used or not" .br .RI "logical \fBsuccess\fP: return value indicating success or failure" .br .SS C INTERFACE #include "elpa_legacy.h" .br #include .br .RI "success = \fBsolve_evp_complex_2stage_single_precision\fP (\fBint\fP na, \fBint\fP nev, \fBcomplex *\fPa, \fBint\fP lda, \fB float *\fPev, \fBcomplex *\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, \fBint\fP useGPU);" .br .RI " " .br .RI "With the definitions of the input and output variables:" .br .RI "int \fBna\fP: global dimension of quadratic matrix \fBa\fP to solve" .br .RI "int \fBnev\fP: number of eigenvalues to be computed; the first \fBnev\fP eigenvalules are calculated" .br .RI "complex *\fBa\fP: pointer to locally distributed part of the matrix \fBa\fP. The local dimensions are \fBlda\fP x \fBmatrixCols\fP" .br .RI "int \fBlda\fP: leading dimension of locally distributed matrix \fBa\fP" .br .RI "float *\fBev\fP: pointer to memory containing on output the first \fBnev\fP computed eigenvalues" .br .RI "complex *\fBq\fP: pointer to memory containing on output the first \fBnev\fP computed eigenvectors" .br .RI "int \fBldq\fP: leading dimension of matrix \fBq\fP which stores the eigenvectors" .br .RI "int \fBnblk\fP: blocksize of block cyclic distributin, must be the same in both directions" .br .RI "int \fBmatrixCols\fP: number of columns of locally distributed matrices \fBa\fP and \fBq\fP" .br .RI "int \fBmpi_comm_rows\fP: communicator for communication in rows. Constructed with \fBelpa_get_communicators\fP(3)" .br .RI "int \fBmpi_comm_cols\fP: communicator for communication in colums. Constructed with \fBelpa_get_communicators\fP(3)" .br .RI "int \fBmpi_comm_all\fP: communicator for all processes in the processor set involved in ELPA" .br .RI "int \fBuseGPU\fP: decide whether GPUs should be used or not" .br .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 This function is part of the legacy API of the ELPA library. Better use the current API. .br .SH "SEE ALSO" .br Old interface: \fBelpa_get_communicators\fP(3) \fBsolve_evp_real_1stage_double\fP(3) \fBsolve_evp_real_1stage_single\fP(3) \fBsolve_evp_complex_1stage_double\fP(3) \fBsolve_evp_complex_1stage_single\fP(3) \fBsolve_evp_real_2stage_double\fP(3) \fBsolve_evp_real_2stage_single\fP(3) \fBsolve_evp_complex_2stage_double\fP(3) .br Current interface: \fBelpa2_print_kernels\fP(1)