Computes matrix - vector product of a sparse general matrix stored in the diagonal format with one-based indexing.
Syntax
Fortran:
call mkl_sdiagemv(transa, m, val, lval, idiag, ndiag, x, y)
call mkl_ddiagemv(transa, m, val, lval, idiag, ndiag, x, y)
call mkl_cdiagemv(transa, m, val, lval, idiag, ndiag, x, y)
call mkl_zdiagemv(transa, m, val, lval, idiag, ndiag, x, y)
C:
mkl_sdiagemv(&transa, &m, val, &lval, idiag, &ndiag, x, y);
mkl_ddiagemv(&transa, &m, val, &lval, idiag, &ndiag, x, y);
mkl_cdiagemv(&transa, &m, val, &lval, idiag, &ndiag, x, y);
mkl_zdiagemv(&transa, &m, val, &lval, idiag, &ndiag, x, y);
Include Files
The FORTRAN 77 interfaces are specified in the mkl_spblas.fi include file and the C interfaces are specified in the mkl_spblas.h include file.
Description
The mkl_?diagemv routine performs a matrix-vector operation defined as y := A*x
or y := A'*x,
where:
x and y are vectors,
A is an m-by-m sparse square matrix in the diagonal storage format, A' is the transpose of A.
Note
This routine supports only one-based indexing of the input arrays.
Input Parameters
Parameter descriptions are common for all implemented interfaces with the exception of data types that refer here to the FORTRAN 77 standard types. Data types specific to the different interfaces are described in the section "Interfaces" below.
- transa
CHARACTER*1. Specifies the operation.
If transa = 'N' or 'n', then y := A*x
If transa = 'T' or 't' or 'C' or 'c', then y := A'*x,
- m
INTEGER. Number of rows of the matrix A.
- val
REAL for mkl_sdiagemv.
DOUBLE PRECISION for mkl_ddiagemv.
COMPLEX for mkl_ccsrgemv.
DOUBLE COMPLEX for mkl_zdiagemv.
Two-dimensional array of size lval*ndiag, contains non-zero diagonals of the matrix A. Refer to values array description in Diagonal Storage Scheme for more details.
- lval
INTEGER. Leading dimension of val lval≥m. Refer to lval description in Diagonal Storage Scheme for more details.
- idiag
INTEGER. Array of length ndiag, contains the distances between main diagonal and each non-zero diagonals in the matrix A.
Refer to distance array description in Diagonal Storage Scheme for more details.
- ndiag
INTEGER. Specifies the number of non-zero diagonals of the matrix A.
- x
REAL for mkl_sdiagemv.
DOUBLE PRECISION for mkl_ddiagemv.
COMPLEX for mkl_ccsrgemv.
DOUBLE COMPLEX for mkl_zdiagemv.
Array, DIMENSION is m.
On entry, the array x must contain the vector x.
Output Parameters
- y
REAL for mkl_sdiagemv.
DOUBLE PRECISION for mkl_ddiagemv.
COMPLEX for mkl_ccsrgemv.
DOUBLE COMPLEX for mkl_zdiagemv.
Array, DIMENSION at least m.
On exit, the array y must contain the vector y.
Interfaces
FORTRAN 77:
SUBROUTINE mkl_sdiagemv(transa, m, val, lval, idiag, ndiag, x, y)
CHARACTER*1 transa
INTEGER m, lval, ndiag
INTEGER idiag(*)
REAL val(lval,*), x(*), y(*)
SUBROUTINE mkl_ddiagemv(transa, m, val, lval, idiag, ndiag, x, y)
CHARACTER*1 transa
INTEGER m, lval, ndiag
INTEGER idiag(*)
DOUBLE PRECISION val(lval,*), x(*), y(*)
SUBROUTINE mkl_cdiagemv(transa, m, val, lval, idiag, ndiag, x, y)
CHARACTER*1 transa
INTEGER m, lval, ndiag
INTEGER idiag(*)
COMPLEX val(lval,*), x(*), y(*)
SUBROUTINE mkl_zdiagemv(transa, m, val, lval, idiag, ndiag, x, y)
CHARACTER*1 transa
INTEGER m, lval, ndiag
INTEGER idiag(*)
DOUBLE COMPLEX val(lval,*), x(*), y(*)
C:
void mkl_sdiagemv(char *transa, int *m, float *val, int *lval,
int *idiag, int *ndiag, float *x, float *y);
void mkl_ddiagemv(char *transa, int *m, double *val, int *lval,
int *idiag, int *ndiag, double *x, double *y);
void mkl_cdiagemv(char *transa, int *m, MKL_Complex8 *val, int *lval,
int *idiag, int *ndiag, MKL_Complex8 *x, MKL_Complex8 *y);
void mkl_zdiagemv(char *transa, int *m, MKL_Complex16 *val, int *lval,
int *idiag, int *ndiag, MKL_Complex16 *x, MKL_Complex16 *y);