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SUBROUTINE PSPTINFO( SUMMRY, NOUT, UPLO, NMAT, NVAL, LDNVAL, NBW,
$ BWVAL, LDBWVAL, NNB, NBVAL, LDNBVAL, NNR,
$ NRVAL, LDNRVAL, NNBR, NBRVAL, LDNBRVAL,
$ NGRIDS, PVAL, LDPVAL, QVAL, LDQVAL, THRESH,
$ WORK, IAM, NPROCS )
*
*
*
* -- ScaLAPACK routine (version 1.7) --
* University of Tennessee, Knoxville, Oak Ridge National Laboratory,
* and University of California, Berkeley.
* November 15, 1997
*
* .. Scalar Arguments ..
CHARACTER UPLO
CHARACTER*(*) SUMMRY
INTEGER IAM,
$ LDBWVAL, LDNBRVAL, LDNBVAL, LDNRVAL, LDNVAL,
$ LDPVAL, LDQVAL, NGRIDS, NMAT, NNB, NNBR, NBW,
$ NPROCS, NNR, NOUT
REAL THRESH
* ..
* .. Array Arguments ..
INTEGER NBRVAL( LDNBRVAL ), NBVAL( LDNBVAL ),
$ NRVAL( LDNRVAL ), NVAL( LDNVAL ),
$ BWVAL( LDBWVAL),
$ PVAL( LDPVAL ), QVAL(LDQVAL), WORK( * )
* ..
*
* Purpose
* =======
*
* PSPTINFO get needed startup information for band factorization
* and transmits it to all processes.
*
* Arguments
* =========
*
* SUMMRY (global output) CHARACTER*(*)
* Name of output (summary) file (if any). Only defined for
* process 0.
*
* NOUT (global output) INTEGER
* The unit number for output file. NOUT = 6, ouput to screen,
* NOUT = 0, output to stderr. Only defined for process 0.
*
* UPLO (global output) CHARACTER
* Specifies whether the upper or lower triangular part of the
* symmetric matrix A is stored.
* = 'U': Upper triangular
* = 'L': Lower triangular
*
*
* NMAT (global output) INTEGER
* The number of different values that can be used for N.
*
* NVAL (global output) INTEGER array, dimension (LDNVAL)
* The values of N (number of columns in matrix) to run the
* code with.
*
* NBW (global output) INTEGER
* The number of different values that can be used for @bw@.
* BWVAL (global output) INTEGER array, dimension (LDNVAL)
* The values of BW (number of subdiagonals in matrix) to run
* the code with.
*
* LDNVAL (global input) INTEGER
* The maximum number of different values that can be used for
* N, LDNVAL > = NMAT.
*
* NNB (global output) INTEGER
* The number of different values that can be used for NB.
*
* NBVAL (global output) INTEGER array, dimension (LDNBVAL)
* The values of NB (blocksize) to run the code with.
*
* LDNBVAL (global input) INTEGER
* The maximum number of different values that can be used for
* NB, LDNBVAL >= NNB.
*
* NNR (global output) INTEGER
* The number of different values that can be used for NRHS.
*
* NRVAL (global output) INTEGER array, dimension(LDNRVAL)
* The values of NRHS (# of Right Hand Sides) to run the code
* with.
*
* LDNRVAL (global input) INTEGER
* The maximum number of different values that can be used for
* NRHS, LDNRVAL >= NNR.
*
* NNBR (global output) INTEGER
* The number of different values that can be used for NBRHS.
*
* NBRVAL (global output) INTEGER array, dimension (LDNBRVAL)
* The values of NBRHS (RHS blocksize) to run the code with.
*
* LDNBRVAL (global input) INTEGER
* The maximum number of different values that can be used for
* NBRHS, LDNBRVAL >= NBRVAL.
*
* NGRIDS (global output) INTEGER
* The number of different values that can be used for P & Q.
*
* PVAL (global output) INTEGER array, dimension (LDPVAL)
* Not used (will be returned as all 1s) since proc grid is 1D
*
* LDPVAL (global input) INTEGER
* The maximum number of different values that can be used for
* P, LDPVAL >= NGRIDS.
*
* QVAL (global output) INTEGER array, dimension (LDQVAL)
* The values of Q (number of process columns) to run the code
* with.
*
* LDQVAL (global input) INTEGER
* The maximum number of different values that can be used for
* Q, LDQVAL >= NGRIDS.
*
* THRESH (global output) REAL
* Indicates what error checks shall be run and printed out:
* = 0 : Perform no error checking
* > 0 : report all residuals greater than THRESH, perform
* factor check only if solve check fails
*
* WORK (local workspace) INTEGER array of dimension >=
* MAX( 8, LDNVAL+2*LDNBVAL+LDNRVAL+LDNBRVAL+LDPVAL+LDQVAL
* $ +3*LDNVAL)
* Used to pack input arrays in order to send info in one
* message.
*
* IAM (local input) INTEGER
* My process number.
*
* NPROCS (global input) INTEGER
* The total number of processes.
*
* ======================================================================
*
* Note: For packing the information we assumed that the length in bytes
* ===== of an integer is equal to the length in bytes of a real single
* precision.
*
* =====================================================================
*
* Code Developer: Andrew J. Cleary, University of Tennessee.
* Current address: Lawrence Livermore National Labs.
* This version released: August, 2001.
*
* ======================================================================
*
* .. Parameters ..
INTEGER NIN
PARAMETER ( NIN = 11 )
* ..
* .. Local Scalars ..
INTEGER I, ICTXT
CHARACTER*79 USRINFO
REAL EPS
* ..
* .. External Subroutines ..
EXTERNAL BLACS_ABORT, BLACS_GET, BLACS_GRIDEXIT,
$ BLACS_GRIDINIT, BLACS_SETUP, ICOPY, IGEBR2D,
$ IGEBS2D, SGEBR2D, SGEBS2D
* ..
* .. External Functions ..
LOGICAL LSAME
REAL PSLAMCH
EXTERNAL LSAME, PSLAMCH
* ..
* .. Intrinsic Functions ..
INTRINSIC MAX, MIN
* ..
* .. Executable Statements ..
*
* Process 0 reads the input data, broadcasts to other processes and
* writes needed information to NOUT
*
IF( IAM.EQ.0 ) THEN
*
* Open file and skip data file header
*
OPEN( NIN, FILE = 'BLLT.dat', STATUS = 'OLD' )
READ( NIN, FMT = * ) SUMMRY
SUMMRY = ' '
*
* Read in user-supplied info about machine type, compiler, etc.
*
READ( NIN, FMT = 9999 ) USRINFO
*
* Read name and unit number for summary output file
*
READ( NIN, FMT = * ) SUMMRY
READ( NIN, FMT = * ) NOUT
IF( NOUT.NE.0 .AND. NOUT.NE.6 )
$ OPEN( NOUT, FILE = SUMMRY, STATUS = 'UNKNOWN' )
*
* Read and check the parameter values for the tests.
*
* Get UPLO
*
READ( NIN, FMT = * ) UPLO
*
*
* Get number of matrices and their dimensions
*
READ( NIN, FMT = * ) NMAT
IF( NMAT.LT.1 .OR. NMAT.GT.LDNVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'N', LDNVAL
GO TO 20
END IF
READ( NIN, FMT = * ) ( NVAL( I ), I = 1, NMAT )
*
* Get bandwidths
*
READ( NIN, FMT = * ) NBW
NBW = 1
IF( NBW.LT.1 .OR. NBW.GT.LDBWVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'BW', LDBWVAL
GO TO 20
END IF
READ( NIN, FMT = * ) ( BWVAL( I ), I = 1, NBW )
*
* Get values of NB
*
READ( NIN, FMT = * ) NNB
IF( NNB.LT.1 .OR. NNB.GT.LDNBVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'NB', LDNBVAL
GO TO 20
END IF
READ( NIN, FMT = * ) ( NBVAL( I ), I = 1, NNB )
*
* Get values of NRHS
*
READ( NIN, FMT = * ) NNR
IF( NNR.LT.1 .OR. NNR.GT.LDNRVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'NRHS', LDNRVAL
GO TO 20
END IF
READ( NIN, FMT = * ) ( NRVAL( I ), I = 1, NNR )
*
* Get values of NBRHS
*
READ( NIN, FMT = * ) NNBR
IF( NNBR.LT.1 .OR. NNBR.GT.LDNBRVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'NBRHS', LDNBRVAL
GO TO 20
END IF
READ( NIN, FMT = * ) ( NBRVAL( I ), I = 1, NNBR )
*
* Get number of grids
*
READ( NIN, FMT = * ) NGRIDS
IF( NGRIDS.LT.1 .OR. NGRIDS.GT.LDPVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'Grids', LDPVAL
GO TO 20
ELSE IF( NGRIDS.GT.LDQVAL ) THEN
WRITE( NOUT, FMT = 9994 ) 'Grids', LDQVAL
GO TO 20
END IF
*
* Processor grid must be 1D so set PVAL to 1
DO 8738 I = 1, NGRIDS
PVAL( I ) = 1
8738 CONTINUE
*
* Get values of Q
*
READ( NIN, FMT = * ) ( QVAL( I ), I = 1, NGRIDS )
*
* Get level of checking
*
READ( NIN, FMT = * ) THRESH
*
* Close input file
*
CLOSE( NIN )
*
* For pvm only: if virtual machine not set up, allocate it and
* spawn the correct number of processes.
*
IF( NPROCS.LT.1 ) THEN
NPROCS = 0
DO 10 I = 1, NGRIDS
NPROCS = MAX( NPROCS, PVAL( I )*QVAL( I ) )
10 CONTINUE
CALL BLACS_SETUP( IAM, NPROCS )
END IF
*
* Temporarily define blacs grid to include all processes so
* information can be broadcast to all processes.
*
CALL BLACS_GET( -1, 0, ICTXT )
CALL BLACS_GRIDINIT( ICTXT, 'Row-major', 1, NPROCS )
*
* Compute machine epsilon
*
EPS = PSLAMCH( ICTXT, 'eps' )
*
* Pack information arrays and broadcast
*
CALL SGEBS2D( ICTXT, 'All', ' ', 1, 1, THRESH, 1 )
I = 1
WORK( I ) = NMAT
I = I+1
WORK( I ) = NBW
I = I+1
WORK( I ) = NNB
I = I+1
WORK( I ) = NNR
I = I+1
WORK( I ) = NNBR
I = I+1
WORK( I ) = NGRIDS
I = I+1
IF( LSAME( UPLO, 'L' ) ) THEN
WORK( I ) = 1
ELSE
WORK( I ) = 2
END IF
I = I+1
* Send number of elements to be sent
CALL IGEBS2D( ICTXT, 'All', ' ', 1, 1, I-1, 1 )
* Send elements
CALL IGEBS2D( ICTXT, 'All', ' ', I-1, 1, WORK, I-1 )
*
I = 1
CALL ICOPY( NMAT, NVAL, 1, WORK( I ), 1 )
I = I + NMAT
CALL ICOPY( NBW, BWVAL, 1, WORK( I ), 1 )
I = I + NBW
CALL ICOPY( NNB, NBVAL, 1, WORK( I ), 1 )
I = I + NNB
CALL ICOPY( NNR, NRVAL, 1, WORK( I ), 1 )
I = I + NNR
CALL ICOPY( NNBR, NBRVAL, 1, WORK( I ), 1 )
I = I + NNBR
CALL ICOPY( NGRIDS, PVAL, 1, WORK( I ), 1 )
I = I + NGRIDS
CALL ICOPY( NGRIDS, QVAL, 1, WORK( I ), 1 )
I = I + NGRIDS
CALL IGEBS2D( ICTXT, 'All', ' ', I-1, 1, WORK, I-1 )
*
* regurgitate input
*
WRITE( NOUT, FMT = 9999 )
$ 'SCALAPACK banded linear systems.'
WRITE( NOUT, FMT = 9999 ) USRINFO
WRITE( NOUT, FMT = * )
WRITE( NOUT, FMT = 9999 )
$ 'Tests of the parallel '//
$ 'real single precision band matrix solve '
WRITE( NOUT, FMT = 9999 )
$ 'The following scaled residual '//
$ 'checks will be computed:'
WRITE( NOUT, FMT = 9999 )
$ ' Solve residual = ||Ax - b|| / '//
$ '(||x|| * ||A|| * eps * N)'
IF( LSAME( UPLO, 'L' ) ) THEN
WRITE( NOUT, FMT = 9999 )
$ ' Factorization residual = ||A - LL''|| /'//
$ ' (||A|| * eps * N)'
ELSE
WRITE( NOUT, FMT = 9999 )
$ ' Factorization residual = ||A - U''U|| /'//
$ ' (||A|| * eps * N)'
END IF
WRITE( NOUT, FMT = 9999 )
$ 'The matrix A is randomly '//
$ 'generated for each test.'
WRITE( NOUT, FMT = * )
WRITE( NOUT, FMT = 9999 )
$ 'An explanation of the input/output '//
$ 'parameters follows:'
WRITE( NOUT, FMT = 9999 )
$ 'TIME : Indicates whether WALL or '//
$ 'CPU time was used.'
*
WRITE( NOUT, FMT = 9999 )
$ 'UPLO : Whether data represents ''Upper'//
$ ''' or ''Lower'' triangular portion of array A.'
WRITE( NOUT, FMT = 9999 )
$ 'TRANS : Whether solve is to be done with'//
$ ' ''Transpose'' of matrix A (T,C) or not (N).'
WRITE( NOUT, FMT = 9999 )
$ 'N : The number of rows and columns '//
$ 'in the matrix A.'
WRITE( NOUT, FMT = 9999 )
$ 'bw : The number of diagonals '//
$ 'in the matrix A.'
WRITE( NOUT, FMT = 9999 )
$ 'NB : The size of the column panels the'//
$ ' matrix A is split into. [-1 for default]'
WRITE( NOUT, FMT = 9999 )
$ 'NRHS : The total number of RHS to solve'//
$ ' for.'
WRITE( NOUT, FMT = 9999 )
$ 'NBRHS : The number of RHS to be put on '//
$ 'a column of processes before going'
WRITE( NOUT, FMT = 9999 )
$ ' on to the next column of processes.'
WRITE( NOUT, FMT = 9999 )
$ 'P : The number of process rows.'
WRITE( NOUT, FMT = 9999 )
$ 'Q : The number of process columns.'
WRITE( NOUT, FMT = 9999 )
$ 'THRESH : If a residual value is less than'//
$ ' THRESH, CHECK is flagged as PASSED'
WRITE( NOUT, FMT = 9999 )
$ 'Fact time: Time in seconds to factor the'//
$ ' matrix'
WRITE( NOUT, FMT = 9999 )
$ 'Sol Time: Time in seconds to solve the'//
$ ' system.'
WRITE( NOUT, FMT = 9999 )
$ 'MFLOPS : Rate of execution for factor '//
$ 'and solve using sequential operation count.'
WRITE( NOUT, FMT = 9999 )
$ 'MFLOP2 : Rough estimate of speed '//
$ 'using actual op count (accurate big P,N).'
WRITE( NOUT, FMT = * )
WRITE( NOUT, FMT = 9999 )
$ 'The following parameter values will be used:'
WRITE( NOUT, FMT = 9999 )
$ ' UPLO : '//UPLO
WRITE( NOUT, FMT = 9996 )
$ 'N ', ( NVAL(I), I = 1, MIN(NMAT, 10) )
IF( NMAT.GT.10 )
$ WRITE( NOUT, FMT = 9997 ) ( NVAL(I), I = 11, NMAT )
WRITE( NOUT, FMT = 9996 )
$ 'bw ', ( BWVAL(I), I = 1, MIN(NBW, 10) )
IF( NBW.GT.10 )
$ WRITE( NOUT, FMT = 9997 ) ( BWVAL(I), I = 11, NBW )
WRITE( NOUT, FMT = 9996 )
$ 'NB ', ( NBVAL(I), I = 1, MIN(NNB, 10) )
IF( NNB.GT.10 )
$ WRITE( NOUT, FMT = 9997 ) ( NBVAL(I), I = 11, NNB )
WRITE( NOUT, FMT = 9996 )
$ 'NRHS ', ( NRVAL(I), I = 1, MIN(NNR, 10) )
IF( NNR.GT.10 )
$ WRITE( NOUT, FMT = 9997 ) ( NRVAL(I), I = 11, NNR )
WRITE( NOUT, FMT = 9996 )
$ 'NBRHS', ( NBRVAL(I), I = 1, MIN(NNBR, 10) )
IF( NNBR.GT.10 )
$ WRITE( NOUT, FMT = 9997 ) ( NBRVAL(I), I = 11, NNBR )
WRITE( NOUT, FMT = 9996 )
$ 'P ', ( PVAL(I), I = 1, MIN(NGRIDS, 10) )
IF( NGRIDS.GT.10 )
$ WRITE( NOUT, FMT = 9997) ( PVAL(I), I = 11, NGRIDS )
WRITE( NOUT, FMT = 9996 )
$ 'Q ', ( QVAL(I), I = 1, MIN(NGRIDS, 10) )
IF( NGRIDS.GT.10 )
$ WRITE( NOUT, FMT = 9997 ) ( QVAL(I), I = 11, NGRIDS )
WRITE( NOUT, FMT = * )
WRITE( NOUT, FMT = 9995 ) EPS
WRITE( NOUT, FMT = 9998 ) THRESH
*
ELSE
*
* If in pvm, must participate setting up virtual machine
*
IF( NPROCS.LT.1 )
$ CALL BLACS_SETUP( IAM, NPROCS )
*
* Temporarily define blacs grid to include all processes so
* all processes have needed startup information
*
CALL BLACS_GET( -1, 0, ICTXT )
CALL BLACS_GRIDINIT( ICTXT, 'Row-major', 1, NPROCS )
*
* Compute machine epsilon
*
EPS = PSLAMCH( ICTXT, 'eps' )
*
CALL SGEBR2D( ICTXT, 'All', ' ', 1, 1, THRESH, 1, 0, 0 )
CALL IGEBR2D( ICTXT, 'All', ' ', 1, 1, I, 1, 0, 0 )
CALL IGEBR2D( ICTXT, 'All', ' ', I, 1, WORK, I, 0, 0 )
I = 1
NMAT = WORK( I )
I = I+1
NBW = WORK( I )
I = I+1
NNB = WORK( I )
I = I+1
NNR = WORK( I )
I = I+1
NNBR = WORK( I )
I = I+1
NGRIDS = WORK( I )
I = I+1
IF( WORK( I ) .EQ. 1 ) THEN
UPLO = 'L'
ELSE
UPLO = 'U'
END IF
I = I+1
*
I = NMAT + NBW + NNB + NNR + NNBR + 2*NGRIDS
*
CALL IGEBR2D( ICTXT, 'All', ' ', 1, I, WORK, 1, 0, 0 )
I = 1
CALL ICOPY( NMAT, WORK( I ), 1, NVAL, 1 )
I = I + NMAT
CALL ICOPY( NBW, WORK( I ), 1, BWVAL, 1 )
I = I + NBW
CALL ICOPY( NNB, WORK( I ), 1, NBVAL, 1 )
I = I + NNB
CALL ICOPY( NNR, WORK( I ), 1, NRVAL, 1 )
I = I + NNR
CALL ICOPY( NNBR, WORK( I ), 1, NBRVAL, 1 )
I = I + NNBR
CALL ICOPY( NGRIDS, WORK( I ), 1, PVAL, 1 )
I = I + NGRIDS
CALL ICOPY( NGRIDS, WORK( I ), 1, QVAL, 1 )
*
END IF
*
CALL BLACS_GRIDEXIT( ICTXT )
*
RETURN
*
20 WRITE( NOUT, FMT = 9993 )
CLOSE( NIN )
IF( NOUT.NE.6 .AND. NOUT.NE.0 )
$ CLOSE( NOUT )
*
CALL BLACS_ABORT( ICTXT, 1 )
STOP
*
9999 FORMAT( A )
9998 FORMAT( 'Routines pass computational tests if scaled residual ',
$ 'is less than ', G12.5 )
9997 FORMAT( ' ', 10I6 )
9996 FORMAT( 2X, A5, ': ', 10I6 )
9995 FORMAT( 'Relative machine precision (eps) is taken to be ',
$ E18.6 )
9994 FORMAT( ' Number of values of ',5A, ' is less than 1 or greater ',
$ 'than ', I2 )
9993 FORMAT( ' Illegal input in file ',40A,'. Aborting run.' )
*
* End of PSPTINFO
*
END
|
