# enter distr. block size:
2
# enter algorithmic  block size:
4
# turn on error checking? (0 = NO, 1 = YES):
1
# turn on parameter checking? (0 = NO, 1 = YES):
1
# turn on sequential checking? (0 = NO, 1 = YES):
1
##################################################################
#
# TEST panel-panel variant of matrix-matrix multiplication
#
##################################################################
#
# TEST DOUBLE PRECISION REAL
#
##################################################################
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 0
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 1
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 0
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 1
##################################################################
#
# TEST DOUBLE PRECISION COMPLEX
#
##################################################################
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 0
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 1
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 0
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
0
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 1
##################################################################
#
# TEST matrix-panel variant of matrix-matrix multiplication
#
##################################################################
#
# TEST DOUBLE PRECISION REAL
#
##################################################################
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 0
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 1
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 0
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 1
##################################################################
#
# TEST DOUBLE PRECISION COMPLEX
#
##################################################################
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 0
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 1
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 0
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
1
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 1
##################################################################
#
# TEST panel-matrix variant of matrix-matrix multiplication
#
##################################################################
#
# TEST DOUBLE PRECISION REAL
#
##################################################################
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 0
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 1
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 0
# enter datatype:
1
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 1
##################################################################
#
# TEST DOUBLE PRECISION COMPLEX
#
##################################################################
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 0
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 0
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
1 1
# enter datatype:
3
# variant? (0 = PAN_PAN, 1 = MAT_PAN, 2 = PAN_MAT):
2
# enter m, n, k:
20 30 10
# enter transa, transb (0=notrans, 1=trans, 2=conj trans):
0 1
# quit
-1

