SUBROUTINE CTIMB3( LINE, NM, MVAL, NN, NVAL, NK, KVAL, NLDA, $ LDAVAL, TIMMIN, A, B, C, RESLTS, LDR1, LDR2, $ NOUT ) * * -- LAPACK timing routine (version 3.0) -- * Univ. of Tennessee, Univ. of California Berkeley, NAG Ltd., * Courant Institute, Argonne National Lab, and Rice University * March 31, 1993 * * .. Scalar Arguments .. CHARACTER*( * ) LINE INTEGER LDR1, LDR2, NK, NLDA, NM, NN, NOUT REAL TIMMIN * .. * .. Array Arguments .. INTEGER KVAL( * ), LDAVAL( * ), MVAL( * ), NVAL( * ) REAL RESLTS( LDR1, LDR2, * ) COMPLEX A( * ), B( * ), C( * ) * .. * * Purpose * ======= * * CTIMB3 times the Level 3 BLAS routines. * * Arguments * ========= * * LINE (input) CHARACTER*80 * The input line that requested this routine. The first six * characters contain either the name of a subroutine or a * generic path name. The remaining characters may be used to * specify the individual routines to be timed. See ATIMIN for * a full description of the format of the input line. * * NM (input) INTEGER * The number of values of M contained in the vector MVAL. * * MVAL (input) INTEGER array, dimension (NM) * The values of the matrix row dimension M. * * NN (input) INTEGER * The number of values of N contained in the vector NVAL. * * NVAL (input) INTEGER array, dimension (NN) * The values of the matrix column dimension N. * * NK (input) INTEGER * The number of values of K contained in the vector KVAL. * * KVAL (input) INTEGER array, dimension (NK) * The values of K. K is used as the intermediate matrix * dimension for CGEMM (the product of an M x K matrix and a * K x N matrix) and as the dimension of the rank-K update in * CHERK and CSYRK. * * NLDA (input) INTEGER * The number of values of LDA contained in the vector LDAVAL. * * LDAVAL (input) INTEGER array, dimension (NLDA) * The values of the leading dimension of the array A. * * TIMMIN (input) REAL * The minimum time a subroutine will be timed. * * A (workspace) COMPLEX array, dimension (LDAMAX*NMAX) * where LDAMAX and NMAX are the maximum values permitted * for LDA and N. * * B (workspace) COMPLEX array, dimension (LDAMAX*NMAX) * * C (workspace) COMPLEX array, dimension (LDAMAX*NMAX) * * RESLTS (output) REAL array, dimension (LDR1,LDR2,NLDA) * The timing results for each subroutine over the relevant * values of M, N, K, and LDA. * * LDR1 (input) INTEGER * The first dimension of RESLTS. LDR1 >= max(1,NM,NK). * * LDR2 (input) INTEGER * The second dimension of RESLTS. LDR2 >= max(1,NN). * * NOUT (input) INTEGER * The unit number for output. * * ===================================================================== * * .. Parameters .. INTEGER NSUBS, NTRANS, NSIDES, NUPLOS PARAMETER ( NSUBS = 9, NTRANS = 3, NSIDES = 2, $ NUPLOS = 2 ) REAL RALPHA, RBETA PARAMETER ( RALPHA = 1.0E0, RBETA = 1.0E0 ) COMPLEX ALPHA, BETA PARAMETER ( ALPHA = ( 1.0E0, 0.0E0 ), $ BETA = ( 1.0E0, 0.0E0 ) ) * .. * .. Local Scalars .. CHARACTER SIDE, TRANSA, TRANSB, UPLO CHARACTER*3 PATH CHARACTER*6 CNAME INTEGER I, IC, ICL, IK, ILDA, IM, IMAT, IN, INFO, $ ISIDE, ISUB, ITA, ITB, IUPLO, K, LDA, M, N REAL OPS, S1, S2, TIME, UNTIME * .. * .. Local Arrays .. LOGICAL TIMSUB( NSUBS ) CHARACTER SIDES( NSIDES ), TRANS( NTRANS ), $ UPLOS( NUPLOS ) CHARACTER*6 NAMES( NSUBS ) * .. * .. External Functions .. LOGICAL LSAME REAL SECOND, SMFLOP, SOPBL3 EXTERNAL LSAME, SECOND, SMFLOP, SOPBL3 * .. * .. External Subroutines .. EXTERNAL ATIMCK, ATIMIN, CGEMM, CHEMM, CHER2K, CHERK, $ CSYMM, CSYR2K, CSYRK, CTIMMG, CTRMM, CTRSM, $ SPRTBL * .. * .. Intrinsic Functions .. INTRINSIC REAL * .. * .. Data statements .. DATA NAMES / 'CGEMM ', 'CHEMM ', 'CSYMM ', 'CHERK ', $ 'CHER2K', 'CSYRK ', 'CSYR2K', 'CTRMM ', $ 'CTRSM ' / DATA TRANS / 'N', 'T', 'C' / DATA SIDES / 'L', 'R' / DATA UPLOS / 'U', 'L' / * .. * .. Executable Statements .. * * * Extract the timing request from the input line. * PATH( 1: 1 ) = 'Complex precision' PATH( 2: 3 ) = 'B3' CALL ATIMIN( PATH, LINE, NSUBS, NAMES, TIMSUB, NOUT, INFO ) IF( INFO.NE.0 ) $ GO TO 690 * * Check that M <= LDA. * CNAME = LINE( 1: 6 ) CALL ATIMCK( 1, CNAME, NM, MVAL, NLDA, LDAVAL, NOUT, INFO ) IF( INFO.GT.0 ) THEN WRITE( NOUT, FMT = 9999 )CNAME GO TO 690 END IF * * Time each routine. * DO 680 ISUB = 1, NSUBS IF( .NOT.TIMSUB( ISUB ) ) $ GO TO 680 * * Print header. * CNAME = NAMES( ISUB ) WRITE( NOUT, FMT = 9998 )CNAME IF( NLDA.EQ.1 ) THEN WRITE( NOUT, FMT = 9997 )LDAVAL( 1 ) ELSE DO 10 I = 1, NLDA WRITE( NOUT, FMT = 9996 )I, LDAVAL( I ) 10 CONTINUE END IF * * Time CGEMM * IF( CNAME.EQ.'CGEMM ' ) THEN DO 90 ITA = 1, NTRANS TRANSA = TRANS( ITA ) DO 80 ITB = 1, NTRANS TRANSB = TRANS( ITB ) DO 70 IK = 1, NK K = KVAL( IK ) DO 60 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 50 IM = 1, NM M = MVAL( IM ) DO 40 IN = 1, NN N = NVAL( IN ) IF( TRANSA.EQ.'N' ) THEN CALL CTIMMG( 1, M, K, A, LDA, 0, 0 ) ELSE CALL CTIMMG( 1, K, M, A, LDA, 0, 0 ) END IF IF( TRANSB.EQ.'N' ) THEN CALL CTIMMG( 0, K, N, B, LDA, 0, 0 ) ELSE CALL CTIMMG( 0, N, K, B, LDA, 0, 0 ) END IF CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 20 CONTINUE CALL CGEMM( TRANSA, TRANSB, M, N, K, $ ALPHA, A, LDA, B, LDA, BETA, $ C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) GO TO 20 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 30 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) GO TO 30 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, M, N, K ) RESLTS( IM, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 40 CONTINUE 50 CONTINUE 60 CONTINUE IF( IK.EQ.1 ) $ WRITE( NOUT, FMT = 9995 )TRANSA, TRANSB WRITE( NOUT, FMT = 9994 )KVAL( IK ) CALL SPRTBL( 'M', 'N', NM, MVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) 70 CONTINUE 80 CONTINUE 90 CONTINUE * * Time CHEMM * ELSE IF( CNAME.EQ.'CHEMM ' ) THEN DO 160 ISIDE = 1, NSIDES SIDE = SIDES( ISIDE ) DO 150 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 6 ELSE IMAT = -6 END IF DO 140 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 130 IM = 1, NM M = MVAL( IM ) DO 120 IN = 1, NN N = NVAL( IN ) IF( ISIDE.EQ.1 ) THEN CALL CTIMMG( IMAT, M, M, A, LDA, 0, 0 ) CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) ELSE CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) CALL CTIMMG( IMAT, N, N, A, LDA, 0, 0 ) END IF CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 100 CONTINUE CALL CHEMM( SIDE, UPLO, M, N, ALPHA, A, LDA, $ B, LDA, BETA, C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) GO TO 100 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 110 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) GO TO 110 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, M, N, ISIDE-1 ) RESLTS( IM, IN, ILDA ) = SMFLOP( OPS, TIME, $ 0 ) 120 CONTINUE 130 CONTINUE 140 CONTINUE WRITE( NOUT, FMT = 9993 )'CHEMM ', SIDE, UPLO CALL SPRTBL( 'M', 'N', NM, MVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) 150 CONTINUE 160 CONTINUE * * Time CSYMM * ELSE IF( CNAME.EQ.'CSYMM ' ) THEN DO 230 ISIDE = 1, NSIDES SIDE = SIDES( ISIDE ) DO 220 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 8 ELSE IMAT = -8 END IF DO 210 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 200 IM = 1, NM M = MVAL( IM ) DO 190 IN = 1, NN N = NVAL( IN ) IF( ISIDE.EQ.1 ) THEN CALL CTIMMG( IMAT, M, M, A, LDA, 0, 0 ) CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) ELSE CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) CALL CTIMMG( IMAT, N, N, A, LDA, 0, 0 ) END IF CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 170 CONTINUE CALL CSYMM( SIDE, UPLO, M, N, ALPHA, A, LDA, $ B, LDA, BETA, C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) GO TO 170 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 180 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( 1, M, N, C, LDA, 0, 0 ) GO TO 180 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, M, N, ISIDE-1 ) RESLTS( IM, IN, ILDA ) = SMFLOP( OPS, TIME, $ 0 ) 190 CONTINUE 200 CONTINUE 210 CONTINUE WRITE( NOUT, FMT = 9993 )'CSYMM ', SIDE, UPLO CALL SPRTBL( 'M', 'N', NM, MVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) 220 CONTINUE 230 CONTINUE * * Time CHERK * ELSE IF( CNAME.EQ.'CHERK ' ) THEN DO 300 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 6 ELSE IMAT = -6 END IF DO 290 ITA = 1, NTRANS TRANSA = TRANS( ITA ) IF( TRANSA.NE.'T' ) THEN DO 280 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 270 IK = 1, NK K = KVAL( IK ) IF( TRANSA.EQ.'N' ) THEN CALL CTIMMG( 1, N, K, A, LDA, 0, 0 ) ELSE CALL CTIMMG( 1, K, N, A, LDA, 0, 0 ) END IF DO 260 IN = 1, NN N = NVAL( IN ) CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 240 CONTINUE CALL CHERK( UPLO, TRANSA, N, K, RALPHA, A, $ LDA, RBETA, C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 240 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 250 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 250 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, N, N, K ) RESLTS( IK, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 260 CONTINUE 270 CONTINUE 280 CONTINUE WRITE( NOUT, FMT = 9992 )CNAME, UPLO, TRANSA CALL SPRTBL( 'K', 'N', NK, KVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) END IF 290 CONTINUE 300 CONTINUE * * Time CHER2K * ELSE IF( CNAME.EQ.'CHER2K' ) THEN DO 370 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 6 ELSE IMAT = -6 END IF DO 360 ITB = 1, NTRANS TRANSB = TRANS( ITB ) IF( TRANSB.NE.'T' ) THEN DO 350 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 340 IK = 1, NK K = KVAL( IK ) IF( TRANSB.EQ.'N' ) THEN CALL CTIMMG( 1, N, K, A, LDA, 0, 0 ) CALL CTIMMG( 0, N, K, B, LDA, 0, 0 ) ELSE CALL CTIMMG( 1, K, N, A, LDA, 0, 0 ) CALL CTIMMG( 0, K, N, B, LDA, 0, 0 ) END IF DO 330 IN = 1, NN N = NVAL( IN ) CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 310 CONTINUE CALL CHER2K( UPLO, TRANSB, N, K, ALPHA, A, $ LDA, B, LDA, RBETA, C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 310 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 320 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 320 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, N, N, K ) RESLTS( IK, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 330 CONTINUE 340 CONTINUE 350 CONTINUE WRITE( NOUT, FMT = 9992 )CNAME, UPLO, TRANSB CALL SPRTBL( 'K', 'N', NK, KVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) END IF 360 CONTINUE 370 CONTINUE * * Time CSYRK * ELSE IF( CNAME.EQ.'CSYRK ' ) THEN DO 440 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 8 ELSE IMAT = -8 END IF DO 430 ITA = 1, NTRANS TRANSA = TRANS( ITA ) IF( TRANSA.NE.'C' ) THEN DO 420 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 410 IK = 1, NK K = KVAL( IK ) IF( TRANSA.EQ.'N' ) THEN CALL CTIMMG( 1, N, K, A, LDA, 0, 0 ) ELSE CALL CTIMMG( 1, K, N, A, LDA, 0, 0 ) END IF DO 400 IN = 1, NN N = NVAL( IN ) CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 380 CONTINUE CALL CSYRK( UPLO, TRANSA, N, K, ALPHA, A, $ LDA, BETA, C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 380 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 390 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 390 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, N, N, K ) RESLTS( IK, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 400 CONTINUE 410 CONTINUE 420 CONTINUE WRITE( NOUT, FMT = 9992 )CNAME, UPLO, TRANSA CALL SPRTBL( 'K', 'N', NK, KVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) END IF 430 CONTINUE 440 CONTINUE * * Time CSYR2K * ELSE IF( CNAME.EQ.'CSYR2K' ) THEN DO 510 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 8 ELSE IMAT = -8 END IF DO 500 ITB = 1, NTRANS TRANSB = TRANS( ITB ) IF( TRANSB.NE.'C' ) THEN DO 490 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 480 IK = 1, NK K = KVAL( IK ) IF( TRANSB.EQ.'N' ) THEN CALL CTIMMG( 1, N, K, A, LDA, 0, 0 ) CALL CTIMMG( 0, N, K, B, LDA, 0, 0 ) ELSE CALL CTIMMG( 1, K, N, A, LDA, 0, 0 ) CALL CTIMMG( 0, K, N, B, LDA, 0, 0 ) END IF DO 470 IN = 1, NN N = NVAL( IN ) CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 450 CONTINUE CALL CSYR2K( UPLO, TRANSB, N, K, ALPHA, A, $ LDA, B, LDA, BETA, C, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 450 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 460 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( IMAT, N, N, C, LDA, 0, 0 ) GO TO 460 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, N, N, K ) RESLTS( IK, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 470 CONTINUE 480 CONTINUE 490 CONTINUE WRITE( NOUT, FMT = 9992 )CNAME, UPLO, TRANSB CALL SPRTBL( 'K', 'N', NK, KVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) END IF 500 CONTINUE 510 CONTINUE * * Time CTRMM * ELSE IF( CNAME.EQ.'CTRMM ' ) THEN DO 590 ISIDE = 1, NSIDES SIDE = SIDES( ISIDE ) DO 580 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 11 ELSE IMAT = -11 END IF DO 570 ITA = 1, NTRANS TRANSA = TRANS( ITA ) DO 560 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 550 IM = 1, NM M = MVAL( IM ) DO 540 IN = 1, NN N = NVAL( IN ) IF( ISIDE.EQ.1 ) THEN CALL CTIMMG( IMAT, M, M, A, LDA, 0, 0 ) ELSE CALL CTIMMG( IMAT, N, N, A, LDA, 0, 0 ) END IF CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 520 CONTINUE CALL CTRMM( SIDE, UPLO, TRANSA, $ 'Non-unit', M, N, ALPHA, A, $ LDA, B, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) GO TO 520 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 530 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) GO TO 530 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, M, N, ISIDE-1 ) RESLTS( IM, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 540 CONTINUE 550 CONTINUE 560 CONTINUE WRITE( NOUT, FMT = 9991 )CNAME, SIDE, UPLO, TRANSA CALL SPRTBL( 'M', 'N', NM, MVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) 570 CONTINUE 580 CONTINUE 590 CONTINUE * * Time CTRSM * ELSE IF( CNAME.EQ.'CTRSM ' ) THEN DO 670 ISIDE = 1, NSIDES SIDE = SIDES( ISIDE ) DO 660 IUPLO = 1, NUPLOS UPLO = UPLOS( IUPLO ) IF( LSAME( UPLO, 'U' ) ) THEN IMAT = 11 ELSE IMAT = -11 END IF DO 650 ITA = 1, NTRANS TRANSA = TRANS( ITA ) DO 640 ILDA = 1, NLDA LDA = LDAVAL( ILDA ) DO 630 IM = 1, NM M = MVAL( IM ) DO 620 IN = 1, NN N = NVAL( IN ) IF( ISIDE.EQ.1 ) THEN CALL CTIMMG( IMAT, M, M, A, LDA, 0, 0 ) ELSE CALL CTIMMG( IMAT, N, N, A, LDA, 0, 0 ) END IF CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) IC = 0 S1 = SECOND( ) 600 CONTINUE CALL CTRSM( SIDE, UPLO, TRANSA, $ 'Non-unit', M, N, ALPHA, A, $ LDA, B, LDA ) S2 = SECOND( ) TIME = S2 - S1 IC = IC + 1 IF( TIME.LT.TIMMIN ) THEN CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) GO TO 600 END IF * * Subtract the time used in CTIMMG. * ICL = 1 S1 = SECOND( ) 610 CONTINUE S2 = SECOND( ) UNTIME = S2 - S1 ICL = ICL + 1 IF( ICL.LE.IC ) THEN CALL CTIMMG( 0, M, N, B, LDA, 0, 0 ) GO TO 610 END IF * TIME = ( TIME-UNTIME ) / REAL( IC ) OPS = SOPBL3( CNAME, M, N, ISIDE-1 ) RESLTS( IM, IN, ILDA ) = SMFLOP( OPS, $ TIME, 0 ) 620 CONTINUE 630 CONTINUE 640 CONTINUE WRITE( NOUT, FMT = 9991 )CNAME, SIDE, UPLO, TRANSA CALL SPRTBL( 'M', 'N', NM, MVAL, NN, NVAL, NLDA, $ RESLTS, LDR1, LDR2, NOUT ) 650 CONTINUE 660 CONTINUE 670 CONTINUE END IF WRITE( NOUT, FMT = 9990 ) 680 CONTINUE 690 CONTINUE * 9999 FORMAT( 1X, A6, ' timing run not attempted', / ) 9998 FORMAT( / ' *** Speed of ', A6, ' in megaflops ***' ) 9997 FORMAT( 5X, 'with LDA = ', I5 ) 9996 FORMAT( 5X, 'line ', I2, ' with LDA = ', I5 ) 9995 FORMAT( / 1X, 'CGEMM with TRANSA = ''', A1, ''', TRANSB = ''', $ A1, '''' ) 9994 FORMAT( / 1X, 'K = ', I4, / ) 9993 FORMAT( / 1X, A6, ' with SIDE = ''', A1, ''', UPLO = ''', A1, $ '''', / ) 9992 FORMAT( / 1X, A6, ' with UPLO = ''', A1, ''', TRANS = ''', A1, $ '''', / ) 9991 FORMAT( / 1X, A6, ' with SIDE = ''', A1, ''', UPLO = ''', A1, $ ''',', ' TRANS = ''', A1, '''', / ) 9990 FORMAT( / / / / / ) RETURN * * End of CTIMB3 * END