OSchip
/
OpenBLAS

 
			
			   
				 
					
						
						
							
							/*********************************************************************/
/* Copyright 2009, 2010 The University of Texas at Austin.           */
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/* without modification, are permitted provided that the following   */
/* conditions are met:                                               */
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/*      copyright notice, this list of conditions and the following  */
/*      disclaimer.                                                  */
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/*   2. Redistributions in binary form must reproduce the above      */
/*      copyright notice, this list of conditions and the following  */
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/*      provided with the distribution.                              */
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/*    THIS  SOFTWARE IS PROVIDED  BY THE  UNIVERSITY OF  TEXAS AT    */
/*    AUSTIN  ``AS IS''  AND ANY  EXPRESS OR  IMPLIED WARRANTIES,    */
/*    INCLUDING, BUT  NOT LIMITED  TO, THE IMPLIED  WARRANTIES OF    */
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/* or implied, of The University of Texas at Austin.                 */
/*********************************************************************/

#include <stdio.h>
#include "common.h"

#ifdef UNIT
#define TRTI2	TRTI2_UU
#define TRMM	TRMM_LNUU
#define TRSM	TRSM_RNUU
#else
#define TRTI2	TRTI2_UN
#define TRMM	TRMM_LNUN
#define TRSM	TRSM_RNUN
#endif

blasint CNAME(blas_arg_t *args, BLASLONG *range_m, BLASLONG *range_n, FLOAT *sa, FLOAT *sb, BLASLONG mypos) {

  BLASLONG n, info;
  BLASLONG bk, i, blocking;
  int mode;
  BLASLONG lda; //, range_N[2];
  blas_arg_t newarg;
  FLOAT *a;
  FLOAT alpha[2] = { ONE, ZERO};
  FLOAT beta [2] = {-ONE, ZERO};

#ifndef COMPLEX
#ifdef XDOUBLE
  mode  =  BLAS_XDOUBLE | BLAS_REAL;
#elif defined(DOUBLE)
  mode  =  BLAS_DOUBLE  | BLAS_REAL;
#else
  mode  =  BLAS_SINGLE  | BLAS_REAL;
#endif
#else
#ifdef XDOUBLE
  mode  =  BLAS_XDOUBLE | BLAS_COMPLEX;
#elif defined(DOUBLE)
  mode  =  BLAS_DOUBLE  | BLAS_COMPLEX;
#else
  mode  =  BLAS_SINGLE  | BLAS_COMPLEX;
#endif
#endif

  n  = args -> n;
  a  = (FLOAT *)args -> a;
  lda = args -> lda;

  if (range_n) n  = range_n[1] - range_n[0];

  if (n <= DTB_ENTRIES) {
    info = TRTI2(args, NULL, range_n, sa, sb, 0);
    return info;
  }

  blocking = GEMM_Q;
  if (n < 4 * GEMM_Q) blocking = (n + 3) / 4;

  for (i = 0; i < n; i += blocking) {
    bk = n - i;
    if (bk > blocking) bk = blocking;

    /* range_N[0] = i;
    range_N[1] = i + bk; */

    newarg.lda = lda;
    newarg.ldb = lda;
    newarg.ldc = lda;
    newarg.alpha = alpha;

    newarg.m = i;
    newarg.n = bk;
    newarg.a = a + (i + i * lda) * COMPSIZE;
    newarg.b = a + (    i * lda) * COMPSIZE;

    newarg.beta  = beta;
    newarg.nthreads = args -> nthreads;

    gemm_thread_m(mode, &newarg, NULL, NULL, TRSM, sa, sb, args -> nthreads);

    newarg.m = bk;
    newarg.n = bk;

    newarg.a = a + (i + i * lda) * COMPSIZE;

    CNAME  (&newarg, NULL, NULL, sa, sb, 0);

    newarg.m = i;
    newarg.n = n - i - bk;
    newarg.k = bk;

    newarg.a = a + (     i       * lda) * COMPSIZE;
    newarg.b = a + (i + (i + bk) * lda) * COMPSIZE;
    newarg.c = a + (    (i + bk) * lda) * COMPSIZE;

    newarg.beta  = NULL;

    gemm_thread_n(mode, &newarg, NULL, NULL, GEMM_NN, sa, sb, args -> nthreads);

    newarg.a = a + (i +  i       * lda) * COMPSIZE;
    newarg.b = a + (i + (i + bk) * lda) * COMPSIZE;

    newarg.m = bk;
    newarg.n = n - i - bk;

    gemm_thread_n(mode, &newarg, NULL, NULL, TRMM, sa, sb, args -> nthreads);

  }

  return 0;
}