Example #1
0
static void hegen
   (enum CBLAS_ORDER Order, enum CBLAS_UPLO Uplo, int N, TYPE *A, int lda)
{
#ifdef POSDEFGEN
   PosDefGen(Order, Uplo, N, A, lda);
#else
   MakeHEDiagDom(Order, Uplo, N, A, lda);
   CrapUpTri(Order, Uplo, N, A, lda);
#endif
}
Example #2
0
double GetTimeWithReps_LLT
   (int mflopF, int lda, int M, int N, int nb, int Uplo, int Side, int flsizeKB)
{
   double mflop, t0, t1, drep;
   char *wrksets;       /* working sets for kernel calls */
#ifdef TCPLX
   const int lda2 = lda+lda;
#else
   const int lda2 = lda;
#endif
   size_t setsz, setszT;   /* work set size in memory, and amnt of it touched */
   size_t nrep;            /* # of reps required to force mflopF flops */
   size_t nset;            /* # of working sets allocated */
   int i;
   setsz=lda*N*ATL_sizeof;   /* matrix is entire working set of LLt */
   setszT=N*N*ATL_sizeof;    /* only touch N*N portion */
   mflop = GetFlopCount(LApotrf, Uplo, M, N, 0, 0, CAN_NB);
/*
 * Cannot reuse matrices (bogus to factor an already factored matrix), so we
 * must take as our total memspace MAX(nrep,nset)*setsz
 */
   ATL_assert(mflop > 0.0);
   drep = (mflopF*1.0e6) / mflop;
   nrep = (int)(drep+0.999999);
/*
 * If cacheline flush doesn't work, then we must use this method
 */
   #if ATL_LINEFLUSH
      if (nrep < 2)
         return(-1.0);                                /* do wt normal timer */
   #else
      nrep = (nrep >= 1) ? nrep : 1;
   #endif

   nset = (flsizeKB*1024+setszT-1)/setszT;
   if (nset < nrep)
      nset = nrep;
   wrksets = malloc(nset * setsz);
   ATL_assert(wrksets);

   for (i=0; i < nset; i++)
      PosDefGen(CblasColMajor, Uplo_LA2ATL(Uplo), N,
                (TYPE*)(wrksets+i*setsz), lda);

   t0 = time00();
   for (i=0; i < nrep; i++)
   {
      test_potrf(Uplo, N, (TYPE*)(wrksets+i*setsz), lda);
   }
   t1 = time00();
   free(wrksets);

   return((t1-t0)/((double)nrep));
}
Example #3
0
double GetTime(int rout, int mflopF, int lda, int M, int N, int nb, int Uplo,
               int Side, int flsizeKB)
{
#if ATL_LINEFLUSH
   FLSTRUCT *flp;
#endif
   TYPE *A, *wrk=NULL, dtmp, dtmp1, *tau=NULL;
   int *ipiv=NULL, itmp, wlen;
   double t0, t1;
/*
 * Call routs that force particular flop count if requested; they return -1.0
 * if one invocation will suffice to force mflopF, in which case do the timing
 * in this routine, which is simpler & doesn't require LRU & as much workspace
 * If we don't have the ability to do cacheline flushing, must use LRU rout!
 */
#if ATL_LINEFLUSH
   if (mflopF > 0)
   {
#endif
      if (rout == LApotrf)
         t1 = GetTimeWithReps_LLT(mflopF, lda, M, N, nb, Uplo, Side, flsizeKB);
      else if (rout == LAgeqrf)
      {
         if (Side == LARight)
         {
            if (Uplo == LAUpper)
               t1 = GetTimeWithReps_QR(mflopF, lda, M, N, nb, Uplo, Side,
                                       flsizeKB);
            else
               t1 = GetTimeWithReps_QL(mflopF, lda, M, N, nb, Uplo, Side,
                                       flsizeKB);
         }
         else if (Uplo == LAUpper)
            t1 = GetTimeWithReps_RQ(mflopF, lda, M, N, nb, Uplo, Side,
                                    flsizeKB);
         else
            t1 = GetTimeWithReps_LQ(mflopF, lda, M, N, nb, Uplo, Side,
                                    flsizeKB);
      }
      else
         t1 = GetTimeWithReps_LU(mflopF, lda, M, N, nb, Uplo, Side, flsizeKB);
#if ATL_LINEFLUSH == 0
      return(t1);
#else
      if (t1 >= 0.0)
         return(t1);
   }
#endif
#if ATL_LINEFLUSH != 0
/*
 * Generate operands
 */
   A = GetGE(M, N, lda);
   ATL_assert(A);
   flp = ATL_GetFlushStruct(A, N*((size_t)lda)*ATL_sizeof, NULL);
   if (rout == LApotrf)
      PosDefGen(CblasColMajor, Uplo_LA2ATL(Uplo), N, A, lda);
   else if (rout & LAgeqrf)
   {                            /* QR must allocate workspace */
      if (Side == LARight)
      {
         if (Uplo == LAUpper)
         {
            test_geqrf(CblasColMajor, M, N, A, lda, &dtmp1, &dtmp, -1);
         }
         else
         {
            test_geqlf(CblasColMajor, M, N, A, lda, &dtmp1, &dtmp, -1);
         }
      }
      else if (Uplo == LAUpper)
      {
         test_gerqf(CblasColMajor, M, N, A, lda, &dtmp1, &dtmp, -1);
      }
      else
      {
         test_gelqf(CblasColMajor, M, N, A, lda, &dtmp1, &dtmp, -1);
      }
      wlen = dtmp;
      wrk = calloc(wlen, ATL_sizeof);
      ATL_assert(wrk);
      flp = ATL_GetFlushStruct(wrk, wlen*ATL_sizeof, flp);
      itmp = (M >= N) ? M : N;
      tau = calloc(itmp, ATL_sizeof);
      flp = ATL_GetFlushStruct(tau, itmp*ATL_sizeof, flp);
   }
   else
   {
      ipiv = calloc(M, sizeof(int));
      ATL_assert(ipiv);
      flp = ATL_GetFlushStruct(ipiv, M*sizeof(int), flp);
   }
/*
 * Flush cache, and do timing
 */
   ATL_FlushAreasByCL(flp);
   if (rout == LApotrf)
   {
      t0 = time00();
      test_potrf(Uplo, N, A, lda);
      t1 = time00();
   }
   else if (rout == LAgeqrf)
   {
      if (Side == LARight)
      {
         if (Uplo == LAUpper)
         {
            t0 = time00();
            test_geqrf(CblasColMajor, M, N, A, lda, tau, wrk, wlen);
            t1 = time00();
         }
         else
         {
            t0 = time00();
            test_geqlf(CblasColMajor, M, N, A, lda, tau, wrk, wlen);
            t1 = time00();
         }
      }
      else if (Uplo == LAUpper)
      {
         t0 = time00();
         test_gerqf(CblasColMajor, M, N, A, lda, tau, wrk, wlen);
         t1 = time00();
      }
      else
      {
         t0 = time00();
         test_gelqf(CblasColMajor, M, N, A, lda, tau, wrk, wlen);
         t1 = time00();
      }
   }
   else
   {
      t0 = time00();
      test_getrf(CblasColMajor, M, N, A, lda, ipiv);
      t1 = time00();
   }
   if (tau)
      free(tau);
   if (wrk)
      free(wrk);
   if (ipiv)
      free(ipiv);
   free(A);
   ATL_KillAllFlushStructs(flp);
   return(t1 - t0);
#endif
}