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SUBROUTINE DTIMPT( LINE, NM, MVAL, NNS, NSVAL, NLDA, LDAVAL,
$ TIMMIN, A, B, RESLTS, LDR1, LDR2, LDR3, 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*80 LINE
INTEGER LDR1, LDR2, LDR3, NLDA, NM, NNS, NOUT
DOUBLE PRECISION TIMMIN
* ..
* .. Array Arguments ..
INTEGER LDAVAL( * ), MVAL( * ), NSVAL( * )
DOUBLE PRECISION A( * ), B( * ), RESLTS( LDR1, LDR2, LDR3, * )
* ..
*
* Purpose
* =======
*
* DTIMPT times DPTTRF, -TRS, -SV, and -SL.
*
* 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 size M.
*
* NNS (input) INTEGER
* The number of values of NRHS contained in the vector NSVAL.
*
* NSVAL (input) INTEGER array, dimension (NNS)
* The values of the number of right hand sides NRHS.
*
* 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) DOUBLE PRECISION
* The minimum time a subroutine will be timed.
*
* A (workspace) DOUBLE PRECISION array, dimension (NMAX*2)
* where NMAX is the maximum value permitted for N.
*
* B (workspace) DOUBLE PRECISION array, dimension (LDAMAX*NMAX)
*
* RESLTS (output) DOUBLE PRECISION array, dimension
* (LDR1,LDR2,LDR3,NSUBS)
* The timing results for each subroutine over the relevant
* values of N.
*
* LDR1 (input) INTEGER
* The first dimension of RESLTS. LDR1 >= 1.
*
* LDR2 (input) INTEGER
* The second dimension of RESLTS. LDR2 >= max(1,NM).
*
* LDR3 (input) INTEGER
* The third dimension of RESLTS. LDR3 >= max(1,NLDA).
*
* NOUT (input) INTEGER
* The unit number for output.
*
* =====================================================================
*
* .. Parameters ..
INTEGER NSUBS
PARAMETER ( NSUBS = 4 )
* ..
* .. Local Scalars ..
CHARACTER*3 PATH
CHARACTER*6 CNAME
INTEGER I, IC, ICL, ILDA, IM, INFO, ISUB, LDB, M, N,
$ NRHS
DOUBLE PRECISION OPS, S1, S2, TIME, UNTIME
* ..
* .. Local Arrays ..
LOGICAL TIMSUB( NSUBS )
CHARACTER*6 SUBNAM( NSUBS )
INTEGER LAVAL( 1 )
* ..
* .. External Functions ..
DOUBLE PRECISION DMFLOP, DOPLA, DSECND
EXTERNAL DMFLOP, DOPLA, DSECND
* ..
* .. External Subroutines ..
EXTERNAL ATIMCK, ATIMIN, DPRTBL, DPTSV, DPTTRF, DPTTRS,
$ DTIMMG, DPTSL
* ..
* .. Intrinsic Functions ..
INTRINSIC DBLE, MAX
* ..
* .. Data statements ..
DATA SUBNAM / 'DPTTRF', 'DPTTRS', 'DPTSV ',
$ 'DPTSL ' /
* ..
* .. Executable Statements ..
*
* Extract the timing request from the input line.
*
PATH( 1: 1 ) = 'Double precision'
PATH( 2: 3 ) = 'PT'
CALL ATIMIN( PATH, LINE, NSUBS, SUBNAM, TIMSUB, NOUT, INFO )
IF( INFO.NE.0 )
$ GO TO 170
*
* Check that N <= LDA for the input values.
*
DO 10 ISUB = 2, NSUBS
IF( .NOT.TIMSUB( ISUB ) )
$ GO TO 10
CNAME = SUBNAM( ISUB )
CALL ATIMCK( 2, CNAME, NM, MVAL, NLDA, LDAVAL, NOUT, INFO )
IF( INFO.GT.0 ) THEN
WRITE( NOUT, FMT = 9999 )CNAME
TIMSUB( ISUB ) = .FALSE.
END IF
10 CONTINUE
*
* Do for each value of M:
*
DO 140 IM = 1, NM
*
M = MVAL( IM )
N = MAX( M, 1 )
*
* Time DPTTRF
*
IF( TIMSUB( 1 ) ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
IC = 0
S1 = DSECND( )
20 CONTINUE
CALL DPTTRF( M, A, A( N+1 ), INFO )
S2 = DSECND( )
TIME = S2 - S1
IC = IC + 1
IF( TIME.LT.TIMMIN ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
GO TO 20
END IF
*
* Subtract the time used in DTIMMG.
*
ICL = 1
S1 = DSECND( )
30 CONTINUE
S2 = DSECND( )
UNTIME = S2 - S1
ICL = ICL + 1
IF( ICL.LE.IC ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
GO TO 30
END IF
*
TIME = ( TIME-UNTIME ) / DBLE( IC )
OPS = DOPLA( 'DPTTRF', M, 0, 0, 0, 0 )
RESLTS( 1, IM, 1, 1 ) = DMFLOP( OPS, TIME, INFO )
*
ELSE
IC = 0
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
END IF
*
* Generate another matrix and factor it using DPTTRF so
* that the factored form can be used in timing the other
* routines.
*
IF( IC.NE.1 )
$ CALL DPTTRF( M, A, A( N+1 ), INFO )
*
* Time DPTTRS
*
IF( TIMSUB( 2 ) ) THEN
DO 70 ILDA = 1, NLDA
LDB = LDAVAL( ILDA )
DO 60 I = 1, NNS
NRHS = NSVAL( I )
CALL DTIMMG( 0, M, NRHS, B, LDB, 0, 0 )
IC = 0
S1 = DSECND( )
40 CONTINUE
CALL DPTTRS( M, NRHS, A, A( N+1 ), B, LDB, INFO )
S2 = DSECND( )
TIME = S2 - S1
IC = IC + 1
IF( TIME.LT.TIMMIN ) THEN
CALL DTIMMG( 0, M, NRHS, B, LDB, 0, 0 )
GO TO 40
END IF
*
* Subtract the time used in DTIMMG.
*
ICL = 1
S1 = DSECND( )
50 CONTINUE
S2 = DSECND( )
UNTIME = S2 - S1
ICL = ICL + 1
IF( ICL.LE.IC ) THEN
CALL DTIMMG( 0, M, NRHS, B, LDB, 0, 0 )
GO TO 50
END IF
*
TIME = ( TIME-UNTIME ) / DBLE( IC )
OPS = DOPLA( 'DPTTRS', M, NRHS, 0, 0, 0 )
RESLTS( I, IM, ILDA, 2 ) = DMFLOP( OPS, TIME, INFO )
60 CONTINUE
70 CONTINUE
END IF
*
IF( TIMSUB( 3 ) ) THEN
DO 110 ILDA = 1, NLDA
LDB = LDAVAL( ILDA )
DO 100 I = 1, NNS
NRHS = NSVAL( I )
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
CALL DTIMMG( 0, M, NRHS, B, LDB, 0, 0 )
IC = 0
S1 = DSECND( )
80 CONTINUE
CALL DPTSV( M, NRHS, A, A( N+1 ), B, LDB, INFO )
S2 = DSECND( )
TIME = S2 - S1
IC = IC + 1
IF( TIME.LT.TIMMIN ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
CALL DTIMMG( 0, M, NRHS, B, LDB, 0, 0 )
GO TO 80
END IF
*
* Subtract the time used in DTIMMG.
*
ICL = 1
S1 = DSECND( )
90 CONTINUE
S2 = DSECND( )
UNTIME = S2 - S1
ICL = ICL + 1
IF( ICL.LE.IC ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
CALL DTIMMG( 0, M, NRHS, B, LDB, 0, 0 )
GO TO 90
END IF
*
TIME = ( TIME-UNTIME ) / DBLE( IC )
OPS = DOPLA( 'DPTSV ', M, NRHS, 0, 0, 0 )
RESLTS( I, IM, ILDA, 3 ) = DMFLOP( OPS, TIME, INFO )
100 CONTINUE
110 CONTINUE
END IF
*
IF( TIMSUB( 4 ) ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
CALL DTIMMG( 0, M, 1, B, N, 0, 0 )
IC = 0
S1 = DSECND( )
120 CONTINUE
CALL DPTSL( M, A, A( N+1 ), B )
S2 = DSECND( )
TIME = S2 - S1
IC = IC + 1
IF( TIME.LT.TIMMIN ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
CALL DTIMMG( 0, M, 1, B, N, 0, 0 )
GO TO 120
END IF
*
* Subtract the time used in DTIMMG.
*
ICL = 1
S1 = DSECND( )
130 CONTINUE
S2 = DSECND( )
UNTIME = S2 - S1
ICL = ICL + 1
IF( ICL.LE.IC ) THEN
CALL DTIMMG( 13, M, M, A, 2*N, 0, 0 )
CALL DTIMMG( 0, M, 1, B, N, 0, 0 )
GO TO 130
END IF
*
TIME = ( TIME-UNTIME ) / DBLE( IC )
OPS = DOPLA( 'DPTSV ', M, 1, 0, 0, 0 )
RESLTS( 1, IM, 1, 4 ) = DMFLOP( OPS, TIME, INFO )
END IF
140 CONTINUE
*
* Print a table of results for each timed routine.
*
DO 160 ISUB = 1, NSUBS
IF( .NOT.TIMSUB( ISUB ) )
$ GO TO 160
WRITE( NOUT, FMT = 9998 )SUBNAM( ISUB )
IF( NLDA.GT.1 .AND. ( TIMSUB( 2 ) .OR. TIMSUB( 3 ) ) ) THEN
DO 150 I = 1, NLDA
WRITE( NOUT, FMT = 9997 )I, LDAVAL( I )
150 CONTINUE
END IF
WRITE( NOUT, FMT = * )
IF( ISUB.EQ.1 ) THEN
CALL DPRTBL( ' ', 'N', 1, LAVAL, NM, MVAL, 1, RESLTS, LDR1,
$ LDR2, NOUT )
ELSE IF( ISUB.EQ.2 ) THEN
CALL DPRTBL( 'NRHS', 'N', NNS, NSVAL, NM, MVAL, NLDA,
$ RESLTS( 1, 1, 1, 2 ), LDR1, LDR2, NOUT )
ELSE IF( ISUB.EQ.3 ) THEN
CALL DPRTBL( 'NRHS', 'N', NNS, NSVAL, NM, MVAL, NLDA,
$ RESLTS( 1, 1, 1, 3 ), LDR1, LDR2, NOUT )
ELSE IF( ISUB.EQ.4 ) THEN
CALL DPRTBL( ' ', 'N', 1, LAVAL, NM, MVAL, 1,
$ RESLTS( 1, 1, 1, 4 ), LDR1, LDR2, NOUT )
END IF
160 CONTINUE
*
170 CONTINUE
9999 FORMAT( 1X, A6, ' timing run not attempted', / )
9998 FORMAT( / ' *** Speed of ', A6, ' in megaflops ***' )
9997 FORMAT( 5X, 'line ', I2, ' with LDA = ', I5 )
RETURN
*
* End of DTIMPT
*
END
|
