codelet_ztsmqr.c 9.76 KB
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/**
 *
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 * @copyright (c) 2009-2014 The University of Tennessee and The University
 *                          of Tennessee Research Foundation.
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 *                          All rights reserved.
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 * @copyright (c) 2012-2016 Inria. All rights reserved.
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 * @copyright (c) 2012-2014, 2016 Bordeaux INP, CNRS (LaBRI UMR 5800), Inria, Univ. Bordeaux. All rights reserved.
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 *
 **/

/**
 *
 * @file codelet_ztsmqr.c
 *
 *  MORSE codelets kernel
 *  MORSE is a software package provided by Univ. of Tennessee,
 *  Univ. of California Berkeley and Univ. of Colorado Denver
 *
 * @version 2.5.0
 * @comment This file has been automatically generated
 *          from Plasma 2.5.0 for MORSE 1.0.0
 * @author Hatem Ltaief
 * @author Jakub Kurzak
 * @author Azzam Haidar
 * @author Dulceneia Becker
 * @author Mathieu Faverge
 * @author Emmanuel Agullo
 * @author Cedric Castagnede
 * @date 2010-11-15
 * @precisions normal z -> c d s
 *
 **/
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#include "runtime/starpu/include/morse_starpu.h"
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#include "runtime/starpu/include/runtime_codelet_z.h"
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/**
 *
 * @ingroup CORE_MORSE_Complex64_t
 *
 *  CORE_ztsmqr overwrites the general complex M1-by-N1 tile A1 and
 *  M2-by-N2 tile A2 with
 *
 *                        SIDE = 'L'        SIDE = 'R'
 *    TRANS = 'N':         Q * | A1 |     | A1 A2 | * Q
 *                             | A2 |
 *
 *    TRANS = 'C':      Q**H * | A1 |     | A1 A2 | * Q**H
 *                             | A2 |
 *
 *  where Q is a complex unitary matrix defined as the product of k
 *  elementary reflectors
 *
 *    Q = H(1) H(2) . . . H(k)
 *
 *  as returned by CORE_ZTSQRT.
 *
 *******************************************************************************
 *
 * @param[in] side
 *         @arg MorseLeft  : apply Q or Q**H from the Left;
 *         @arg MorseRight : apply Q or Q**H from the Right.
 *
 * @param[in] trans
 *         @arg MorseNoTrans   :  No transpose, apply Q;
 *         @arg MorseConjTrans :  ConjTranspose, apply Q**H.
 *
 * @param[in] M1
 *         The number of rows of the tile A1. M1 >= 0.
 *
 * @param[in] N1
 *         The number of columns of the tile A1. N1 >= 0.
 *
 * @param[in] M2
 *         The number of rows of the tile A2. M2 >= 0.
 *         M2 = M1 if side == MorseRight.
 *
 * @param[in] N2
 *         The number of columns of the tile A2. N2 >= 0.
 *         N2 = N1 if side == MorseLeft.
 *
 * @param[in] K
 *         The number of elementary reflectors whose product defines
 *         the matrix Q.
 *
 * @param[in] IB
 *         The inner-blocking size.  IB >= 0.
 *
 * @param[in,out] A1
 *         On entry, the M1-by-N1 tile A1.
 *         On exit, A1 is overwritten by the application of Q.
 *
 * @param[in] LDA1
 *         The leading dimension of the array A1. LDA1 >= max(1,M1).
 *
 * @param[in,out] A2
 *         On entry, the M2-by-N2 tile A2.
 *         On exit, A2 is overwritten by the application of Q.
 *
 * @param[in] LDA2
 *         The leading dimension of the tile A2. LDA2 >= max(1,M2).
 *
 * @param[in] V
 *         The i-th row must contain the vector which defines the
 *         elementary reflector H(i), for i = 1,2,...,k, as returned by
 *         CORE_ZTSQRT in the first k columns of its array argument V.
 *
 * @param[in] LDV
 *         The leading dimension of the array V. LDV >= max(1,K).
 *
 * @param[in] T
 *         The IB-by-N1 triangular factor T of the block reflector.
 *         T is upper triangular by block (economic storage);
 *         The rest of the array is not referenced.
 *
 * @param[in] LDT
 *         The leading dimension of the array T. LDT >= IB.
 *
 * @param[out] WORK
 *         Workspace array of size
 *             LDWORK-by-N1 if side == MorseLeft
 *             LDWORK-by-IB if side == MorseRight
 *
 * @param[in] LDWORK
 *         The leading dimension of the array WORK.
 *             LDWORK >= max(1,IB) if side == MorseLeft
 *             LDWORK >= max(1,M1) if side == MorseRight
 *
 *******************************************************************************
 *
 * @return
 *          \retval MORSE_SUCCESS successful exit
 *          \retval <0 if -i, the i-th argument had an illegal value
 *
 ******************************************************************************/

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void MORSE_TASK_ztsmqr(const MORSE_option_t *options,
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                       MORSE_enum side, MORSE_enum trans,
                       int m1, int n1, int m2, int n2, int k, int ib, int nb,
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                       const MORSE_desc_t *A1, int A1m, int A1n, int lda1,
                       const MORSE_desc_t *A2, int A2m, int A2n, int lda2,
                       const MORSE_desc_t *V, int Vm, int Vn, int ldv,
                       const MORSE_desc_t *T, int Tm, int Tn, int ldt)
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{
    struct starpu_codelet *codelet = &cl_ztsmqr;
    void (*callback)(void*) = options->profiling ? cl_ztsmqr_callback : NULL;
    int ldwork = side == MorseLeft ? ib : nb;
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    int sizeA1 = lda1*n1;
    int sizeA2 = lda2*n2;
    int sizeV = ldv*k;
    int sizeT = ldt*n1;
    int execution_rank = A2->get_rankof( A2, A2m, A2n );
    int rank_changed=0;
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    (void)execution_rank;
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    /*  force execution on the rank owning the largest data (tile) */
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    int threshold;
    char* env = getenv("MORSE_COMM_FACTOR_THRESHOLD");
    if (env != NULL)
        threshold = (unsigned)atoi(env);
    else
        threshold = 10;
    if ( sizeA1 > threshold*sizeA2 ){
        execution_rank = A1->get_rankof( A1, A1m, A1n );
        rank_changed = 1;
    }else if( sizeV > threshold*sizeA2 ){
        execution_rank = V->get_rankof( V, Vm, Vn );
        rank_changed = 1;
    }else if( sizeT > threshold*sizeA2 ){
        execution_rank = T->get_rankof( T, Tm, Tn );
        rank_changed = 1;
    }
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    if ( morse_desc_islocal( A1, A1m, A1n ) ||
         morse_desc_islocal( A2, A2m, A2n ) ||
         morse_desc_islocal( V,  Vm,  Vn  ) ||
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         morse_desc_islocal( T,  Tm,  Tn  ) ||
         rank_changed )
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    {
        starpu_insert_task(
            codelet,
            STARPU_VALUE,    &side,              sizeof(MORSE_enum),
            STARPU_VALUE,    &trans,             sizeof(MORSE_enum),
            STARPU_VALUE,    &m1,                sizeof(int),
            STARPU_VALUE,    &n1,                sizeof(int),
            STARPU_VALUE,    &m2,                sizeof(int),
            STARPU_VALUE,    &n2,                sizeof(int),
            STARPU_VALUE,    &k,                 sizeof(int),
            STARPU_VALUE,    &ib,                sizeof(int),
            STARPU_RW,        RTBLKADDR(A1, MORSE_Complex64_t, A1m, A1n),
            STARPU_VALUE,    &lda1,              sizeof(int),
            STARPU_RW,        RTBLKADDR(A2, MORSE_Complex64_t, A2m, A2n),
            STARPU_VALUE,    &lda2,              sizeof(int),
            STARPU_R,         RTBLKADDR(V, MORSE_Complex64_t, Vm, Vn),
            STARPU_VALUE,    &ldv,               sizeof(int),
            STARPU_R,         RTBLKADDR(T, MORSE_Complex64_t, Tm, Tn),
            STARPU_VALUE,    &ldt,               sizeof(int),
            /* max( ib*nb, 2*ib*nb ) */
            STARPU_SCRATCH,   options->ws_worker,
            STARPU_VALUE,    &ldwork,            sizeof(int),
            STARPU_PRIORITY,  options->priority,
            STARPU_CALLBACK,  callback,
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#if defined(CHAMELEON_CODELETS_HAVE_NAME)
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            STARPU_NAME, "ztsmqr",
#endif
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#if defined(CHAMELEON_USE_MPI)
            STARPU_EXECUTE_ON_NODE, execution_rank,
#endif
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            0);
    }
}


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#if !defined(CHAMELEON_SIMULATION)
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static void cl_ztsmqr_cpu_func(void *descr[], void *cl_arg)
{
    MORSE_enum side;
    MORSE_enum trans;
    int m1;
    int n1;
    int m2;
    int n2;
    int k;
    int ib;
    MORSE_Complex64_t *A1;
    int lda1;
    MORSE_Complex64_t *A2;
    int lda2;
    MORSE_Complex64_t *V;
    int ldv;
    MORSE_Complex64_t *T;
    int ldt;
    MORSE_Complex64_t *WORK;
    int ldwork;

    A1   = (MORSE_Complex64_t *)STARPU_MATRIX_GET_PTR(descr[0]);
    A2   = (MORSE_Complex64_t *)STARPU_MATRIX_GET_PTR(descr[1]);
    V    = (MORSE_Complex64_t *)STARPU_MATRIX_GET_PTR(descr[2]);
    T    = (MORSE_Complex64_t *)STARPU_MATRIX_GET_PTR(descr[3]);
    WORK = (MORSE_Complex64_t *)STARPU_MATRIX_GET_PTR(descr[4]); /* ib * nb */

    starpu_codelet_unpack_args(cl_arg, &side, &trans, &m1, &n1, &m2, &n2, &k, &ib,
                               &lda1, &lda2, &ldv, &ldt, &ldwork);

    CORE_ztsmqr(side, trans, m1, n1, m2, n2, k, ib,
                A1, lda1, A2, lda2, V, ldv, T, ldt, WORK, ldwork);
}
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#if defined(CHAMELEON_USE_CUDA)
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static void cl_ztsmqr_cuda_func(void *descr[], void *cl_arg)
{
    MORSE_enum side;
    MORSE_enum trans;
    int m1;
    int n1;
    int m2;
    int n2;
    int k;
    int ib;
    cuDoubleComplex *A1;
    int lda1;
    cuDoubleComplex *A2;
    int lda2;
    cuDoubleComplex *V;
    int ldv;
    cuDoubleComplex *T;
    int ldt;
    cuDoubleComplex *W, *WC;
    int ldwork;
    int ldworkc;
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    CUstream stream;
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    A1 = (cuDoubleComplex *)STARPU_MATRIX_GET_PTR(descr[0]);
    A2 = (cuDoubleComplex *)STARPU_MATRIX_GET_PTR(descr[1]);
    V  = (cuDoubleComplex *)STARPU_MATRIX_GET_PTR(descr[2]);
    T  = (cuDoubleComplex *)STARPU_MATRIX_GET_PTR(descr[3]);
    W  = (cuDoubleComplex *)STARPU_MATRIX_GET_PTR(descr[4]); /* 2*ib*nb */

    starpu_codelet_unpack_args(cl_arg, &side, &trans, &m1, &n1, &m2, &n2, &k, &ib,
                               &lda1, &lda2, &ldv, &ldt, &ldwork);

    WC = W + ib * (side == MorseLeft ? n1 : m1);
    ldworkc = (side == MorseLeft) ? m1 : ib;

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    stream = starpu_cuda_get_local_stream();
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    cublasSetKernelStream( stream );

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    CUDA_ztsmqr(
            side, trans, m1, n1, m2, n2, k, ib,
            A1, lda1, A2, lda2, V, ldv, T, ldt,
            W, ldwork, WC, ldworkc, stream );
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#ifndef STARPU_CUDA_ASYNC
    cudaStreamSynchronize( stream );
#endif
}
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#endif /* defined(CHAMELEON_USE_CUDA) */
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#endif /* !defined(CHAMELEON_SIMULATION) */
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/*
 * Codelet definition
 */
CODELETS(ztsmqr, 5, cl_ztsmqr_cpu_func, cl_ztsmqr_cuda_func, STARPU_CUDA_ASYNC)