Developer Reference

Contents

mkl_?coomm

Computes matrix-matrix product of a sparse matrix stored in the coordinate format (deprecated).

Syntax

void
mkl_scoomm
(
const
char
*transa
,
const
MKL_INT
*m
,
const
MKL_INT
*n
,
const
MKL_INT
*k
,
const
float
*alpha
,
const
char
*matdescra
,
const
float
*val
,
const
MKL_INT
*rowind
,
const
MKL_INT
*colind
,
const
MKL_INT
*nnz
,
const
float
*b
,
const
MKL_INT
*ldb
,
const
float
*beta
,
float
*c
,
const
MKL_INT
*ldc
);
void
mkl_dcoomm
(
const
char
*transa
,
const
MKL_INT
*m
,
const
MKL_INT
*n
,
const
MKL_INT
*k
,
const
double
*alpha
,
const
char
*matdescra
,
const
double
*val
,
const
MKL_INT
*rowind
,
const
MKL_INT
*colind
,
const
MKL_INT
*nnz
,
const
double
*b
,
const
MKL_INT
*ldb
,
const
double
*beta
,
double
*c
,
const
MKL_INT
*ldc
);
void
mkl_ccoomm
(
const
char
*transa
,
const
MKL_INT
*m
,
const
MKL_INT
*n
,
const
MKL_INT
*k
,
const
MKL_Complex8
*alpha
,
const
char
*matdescra
,
const
MKL_Complex8
*val
,
const
MKL_INT
*rowind
,
const
MKL_INT
*colind
,
const
MKL_INT
*nnz
,
const
MKL_Complex8
*b
,
const
MKL_INT
*ldb
,
const
MKL_Complex8
*beta
,
MKL_Complex8
*c
,
const
MKL_INT
*ldc
);
void
mkl_zcoomm
(
const
char
*transa
,
const
MKL_INT
*m
,
const
MKL_INT
*n
,
const
MKL_INT
*k
,
const
MKL_Complex16
*alpha
,
const
char
*matdescra
,
const
MKL_Complex16
*val
,
const
MKL_INT
*rowind
,
const
MKL_INT
*colind
,
const
MKL_INT
*nnz
,
const
MKL_Complex16
*b
,
const
MKL_INT
*ldb
,
const
MKL_Complex16
*beta
,
MKL_Complex16
*c
,
const
MKL_INT
*ldc
);
Include Files
  • mkl.h
Description
This routine is deprecated. Use Use mkl_sparse_?_mm from the
Intel® MKL
Inspector-executor Sparse BLAS interface instead.
The
mkl_?coomm
routine performs a matrix-matrix operation defined as
C
:=
alpha
*
A
*
B
+
beta
*
C
or
C
:=
alpha
*
A
T
*
B
+
beta
*
C
,
or
C
:=
alpha
*
A
H
*
B
+
beta
*
C
,
where:
alpha
and
beta
are scalars,
B
and
C
are dense matrices,
A
is an
m
-by-
k
sparse matrix in the coordinate format,
A
T
is the transpose of
A
, and
A
H
is the conjugate transpose of
A
.
This routine supports a coordinate format both with one-based indexing and zero-based indexing.
Input Parameters
transa
Specifies the operation.
If
transa
=
'N'
or
'n'
, then
C
:=
alpha
*
A
*
B
+
beta
*
C
If
transa
=
'T'
or
't'
, then
C
:=
alpha
*
A
T
*
B
+
beta
*
C
,
If
transa
=
'C'
or
'c'
, then
C
:=
alpha
*
A
H
*
B
+
beta
*
C
.
m
Number of rows of the matrix
A
.
n
Number of columns of the matrix
C
.
k
Number of columns of the matrix
A
.
alpha
Specifies the scalar
alpha
.
matdescra
Array of six elements, specifies properties of the matrix used for operation. Only first four array elements are used, their possible values are given in
Table “Possible Values of the Parameter
matdescra
(
descra
)”
. Possible combinations of element values of this parameter are given in
Table “Possible Combinations of Element Values of the Parameter
matdescra
.
val
Array of length
nnz
, contains non-zero elements of the matrix
A
in the arbitrary order.
Refer to
values
array description in Coordinate Format for more details.
rowind
Array of length
nnz
.
For one-based indexing, contains the row indices plus one for each non-zero element of the matrix
A
.
For zero-based indexing, contains the row indices for each non-zero element of the matrix
A
.
Refer to
rows
array description in Coordinate Format for more details.
colind
Array of length
nnz
.
For one-based indexing, contains the column indices plus one for each non-zero element of the matrix
A
.
For zero-based indexing, contains the column indices for each non-zero element of the matrix
A
.
Refer to
columns
array description in Coordinate Format for more details.
nnz
Specifies the number of non-zero element of the matrix
A
.
Refer to
nnz
description in Coordinate Format for more details.
b
Array, size
ldb
by at least
n
for non-transposed matrix
A
and at least
m
for transposed for one-based indexing, and (at least
k
for non-transposed matrix
A
and at least
m
for transposed,
ldb
) for zero-based indexing.
On entry with
transa
=
'N'
or
'n'
, the leading
k
-by-
n
part of the array
b
must contain the matrix
B
, otherwise the leading
m
-by-
n
part of the array
b
must contain the matrix
B
.
ldb
Specifies the leading dimension of
b
for one-based indexing, and the second dimension of
b
for zero-based indexing, as declared in the calling (sub)program.
beta
Specifies the scalar
beta
.
c
Array, size
ldc
by
n
for one-based indexing, and
(
m
,
ldc
)
for zero-based indexing.
On entry, the leading
m
-by-
n
part of the array
c
must contain the matrix
C
, otherwise the leading
k
-by-
n
part of the array
c
must contain the matrix
C
.
ldc
Specifies the leading dimension of
c
for one-based indexing, and the second dimension of
c
for zero-based indexing, as declared in the calling (sub)program.
Output Parameters
c
Overwritten by the matrix
(
alpha
*
A
*
B
+
beta
*
C
)
,
(
alpha
*
A
T
*
B
+
beta
*
C
)
, or
(
alpha
*
A
H
*
B
+
beta
*
C
)
.

Product and Performance Information

1

Intel's compilers may or may not optimize to the same degree for non-Intel microprocessors for optimizations that are not unique to Intel microprocessors. These optimizations include SSE2, SSE3, and SSSE3 instruction sets and other optimizations. Intel does not guarantee the availability, functionality, or effectiveness of any optimization on microprocessors not manufactured by Intel. Microprocessor-dependent optimizations in this product are intended for use with Intel microprocessors. Certain optimizations not specific to Intel microarchitecture are reserved for Intel microprocessors. Please refer to the applicable product User and Reference Guides for more information regarding the specific instruction sets covered by this notice.

Notice revision #20110804