ccnvcor2 - compute the convolution or correlation of complex matrices
SUBROUTINE CCNVCOR2(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY, MZ, NZ, Z, LDZ, WORK, LWORK) CHARACTER*1 CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY COMPLEX X(LDX,*), Y(LDY,*), Z(LDZ,*), WORK(*) INTEGER MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK SUBROUTINE CCNVCOR2_64(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY, MZ, NZ, Z, LDZ, WORK, LWORK) CHARACTER*1 CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY COMPLEX X(LDX,*), Y(LDY,*), Z(LDZ,*), WORK(*) INTEGER*8 MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK F95 INTERFACE SUBROUTINE CNVCOR2(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY, MZ, NZ, Z, LDZ, WORK, LWORK) CHARACTER(LEN=1) :: CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY COMPLEX, DIMENSION(:) :: WORK COMPLEX, DIMENSION(:,:) :: X, Y, Z INTEGER :: MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK SUBROUTINE CNVCOR2_64(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY, MZ, NZ, Z, LDZ, WORK, LWORK) CHARACTER(LEN=1) :: CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY COMPLEX, DIMENSION(:) :: WORK COMPLEX, DIMENSION(:,:) :: X, Y, Z INTEGER(8) :: MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK C INTERFACE #include <sunperf.h> void ccnvcor2(char cnvcor, char method, char transx, char scratchx, char transy, char scratchy, int mx, int nx, complex *x, int ldx, int my, int ny, int mpre, int npre, complex *y, int ldy, int mz, int nz, complex *z, int ldz, complex *work, int lwork); void ccnvcor2_64(char cnvcor, char method, char transx, char scratchx, char transy, char scratchy, long mx, long nx, complex *x, long ldx, long my, long ny, long mpre, long npre, complex *y, long ldy, long mz, long nz, complex *z, long ldz, complex *work, long lwork);
Oracle Solaris Studio Performance Library ccnvcor2(3P)
NAME
ccnvcor2 - compute the convolution or correlation of complex matrices
SYNOPSIS
SUBROUTINE CCNVCOR2(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY,
SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY, MZ, NZ, Z,
LDZ, WORK, LWORK)
CHARACTER*1 CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY
COMPLEX X(LDX,*), Y(LDY,*), Z(LDZ,*), WORK(*)
INTEGER MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK
SUBROUTINE CCNVCOR2_64(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY,
SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY, MZ, NZ, Z,
LDZ, WORK, LWORK)
CHARACTER*1 CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY
COMPLEX X(LDX,*), Y(LDY,*), Z(LDZ,*), WORK(*)
INTEGER*8 MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK
F95 INTERFACE
SUBROUTINE CNVCOR2(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY,
SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY,
MZ, NZ, Z, LDZ, WORK, LWORK)
CHARACTER(LEN=1) :: CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY
COMPLEX, DIMENSION(:) :: WORK
COMPLEX, DIMENSION(:,:) :: X, Y, Z
INTEGER :: MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK
SUBROUTINE CNVCOR2_64(CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY,
SCRATCHY, MX, NX, X, LDX, MY, NY, MPRE, NPRE, Y, LDY,
MZ, NZ, Z, LDZ, WORK, LWORK)
CHARACTER(LEN=1) :: CNVCOR, METHOD, TRANSX, SCRATCHX, TRANSY, SCRATCHY
COMPLEX, DIMENSION(:) :: WORK
COMPLEX, DIMENSION(:,:) :: X, Y, Z
INTEGER(8) :: MX, NX, LDX, MY, NY, MPRE, NPRE, LDY, MZ, NZ, LDZ, LWORK
C INTERFACE
#include <sunperf.h>
void ccnvcor2(char cnvcor, char method, char transx, char scratchx,
char transy, char scratchy, int mx, int nx, complex *x, int
ldx, int my, int ny, int mpre, int npre, complex *y, int ldy,
int mz, int nz, complex *z, int ldz, complex *work, int
lwork);
void ccnvcor2_64(char cnvcor, char method, char transx, char scratchx,
char transy, char scratchy, long mx, long nx, complex *x,
long ldx, long my, long ny, long mpre, long npre, complex *y,
long ldy, long mz, long nz, complex *z, long ldz, complex
*work, long lwork);
PURPOSE
ccnvcor2 computes the convolution or correlation of complex matrices.
ARGUMENTS
CNVCOR (input)
'V' or 'v' to compute convolution, 'R' or 'r' to compute cor-
relation.
METHOD (input)
'T' or 't' if the Fourier transform method is to be used, 'D'
or 'd' to compute directly from the definition.
TRANSX (input)
'N' or 'n' if X is the filter matrix, 'T' or 't' if trans-
pose(X) is the filter matrix.
SCRATCHX (input)
'N' or 'n' if X must be preserved, 'S' or 's' if X can be
used as scratch space. The contents of X are undefined after
returning from a call in which X is allowed to be used for
scratch.
TRANSY (input)
'N' or 'n' if Y is the input matrix, 'T' or 't' if trans-
pose(Y) is the input matrix.
SCRATCHY (input)
'N' or 'n' if Y must be preserved, 'S' or 's' if Y can be
used as scratch space. The contents of Y are undefined after
returning from a call in which Y is allowed to be used for
scratch.
MX (input)
Number of rows in the filter matrix. MX >= 0.
NX (input)
Number of columns in the filter matrix. NX >= 0.
X (input)
On entry, the filter matrix. Unchanged on exit if SCRATCHX
is 'N' or 'n', undefined on exit if SCRATCHX is 'S' or 's'.
LDX (input)
Leading dimension of the array that contains the filter
matrix.
MY (input)
Number of rows in the input matrix. MY >= 0.
NY (input)
Number of columns in the input matrix. NY >= 0.
MPRE (input)
Number of implicit zeros to prepend to each row of the input
matrix. MPRE >= 0.
NPRE (input)
Number of implicit zeros to prepend to each column of the
input matrix. NPRE >= 0.
Y (input)
Input matrix. Unchanged on exit if SCRATCHY is 'N' or 'n',
undefined on exit if SCRATCHY is 'S' or 's'.
LDY (input)
Leading dimension of the array that contains the input
matrix.
MZ (input)
Number of rows in the output matrix. MZ >= 0. CCNVCOR2 will
return immediately if MZ = 0.
NZ (input)
Number of columns in the output matrix. NZ >= 0. CCNVCOR2
will return immediately if NZ = 0.
Z (output)
dimension(LDZ,*)
Result matrix.
LDZ (input)
Leading dimension of the array that contains the result
matrix. LDZ >= MAX(1,MZ).
WORK (input/output)
(input/scratch) dimension(LWORK)
On entry for the first call to CCNVCOR2, WORK(1) must contain
CMPLX(0.0,0.0). After the first call, WORK(1) must be set to
CMPLX(0.0,0.0) iff WORK has been altered since the last call
to this subroutine or if the sizes of the arrays have
changed.
LWORK (input)
Length of the work vector. The upper bound of the workspace
length requirement is 2 * (MYC + NYC) + 15, where MYC =
MAX(MAX(MX,NX), MAX(MY,NY)+NPRE) and NYC = MAX(MAX(MX,NX),
MAX(MY,NY)+MPRE). If LWORK indicates a workspace that is too
small, the routine will allocate its own workspace. If the
FFT is not used, the value of LWORK is unimportant.
7 Nov 2015 ccnvcor2(3P)