OSchip
/
OpenBLAS

 
			
			   
				 
					
						
						
							
							/***************************************************************************
Copyright (c) 2025 The OpenBLAS Project
All rights reserved.
Redistribution and use in source and binary forms, with or without
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2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
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3. Neither the name of the OpenBLAS project nor the names of
its contributors may be used to endorse or promote products
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE OPENBLAS PROJECT OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*****************************************************************************/

#include "common.h"
#if (defined(BFLOAT16) || defined(BFLOAT16_ONLY))&& defined(BFLOAT16CONVERSION)
static float
bfloat16tof32 (bfloat16 f16)
{
  float result = 0;
  unsigned short* q = (unsigned short*)(&result);
#if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
  q[0] = f16;
#else
  q[1] = f16;
#endif
  return result;
}

static bfloat16 f32tobfloat16(float f32) {
  unsigned short *q = (unsigned short *)(&f32);
#if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
  return q[0];
#else
  return q[1];
#endif
}

#define BF16TOF32(x) (bfloat16tof32(x))
#define F32TOBF16(x) (f32tobfloat16(x))
#else
#define BF16TOF32(x) x
#define F32TOBF16(x) x
#endif

#ifdef BFLOAT16_ONLY
int CNAME(BLASLONG bm,BLASLONG bn,BLASLONG bk, float alpha,IFLOAT* ba,IFLOAT* bb,FLOAT* C,BLASLONG ldc
#else
int CNAME(BLASLONG bm,BLASLONG bn,BLASLONG bk,FLOAT alpha,IFLOAT* ba,IFLOAT* bb,FLOAT* C,BLASLONG ldc
#endif
  #ifdef TRMMKERNEL
		,BLASLONG offset
#endif
		)
{
   BLASLONG i,j,k;
   FLOAT *C0,*C1;
   IFLOAT *ptrba,*ptrbb;
   FLOAT res0,res1,res2,res3;
   IFLOAT load0,load1,load2,load3,load4,load5,load6,load7;
   for (j=0; j<bn/2; j+=1)
     {
        C0 = C;
        C1 = C0+ldc;
        ptrba = ba;
        for (i=0; i<bm/2; i+=1)
          {
             ptrbb = bb;
             res0 = 0;
             res1 = 0;
             res2 = 0;
             res3 = 0;
             for (k=0; k<bk/4; k+=1)
               {
                  load0 = ptrba[2*0+0];
                  load1 = ptrbb[2*0+0];
                  res0 = res0+BF16TOF32(load0)*BF16TOF32(load1);
                  load2 = ptrba[2*0+1];
                  res1 = res1+BF16TOF32(load2)*BF16TOF32(load1);
                  load3 = ptrbb[2*0+1];
                  res2 = res2+BF16TOF32(load0)*BF16TOF32(load3);
                  res3 = res3+BF16TOF32(load2)*BF16TOF32(load3);
                  load4 = ptrba[2*1+0];
                  load5 = ptrbb[2*1+0];
                  res0 = res0+BF16TOF32(load4)*BF16TOF32(load5);
                  load6 = ptrba[2*1+1];
                  res1 = res1+BF16TOF32(load6)*BF16TOF32(load5);
                  load7 = ptrbb[2*1+1];
                  res2 = res2+BF16TOF32(load4)*BF16TOF32(load7);
                  res3 = res3+BF16TOF32(load6)*BF16TOF32(load7);
                  load0 = ptrba[2*2+0];
                  load1 = ptrbb[2*2+0];
                  res0 = res0+BF16TOF32(load0)*BF16TOF32(load1);
                  load2 = ptrba[2*2+1];
                  res1 = res1+BF16TOF32(load2)*BF16TOF32(load1);
                  load3 = ptrbb[2*2+1];
                  res2 = res2+BF16TOF32(load0)*BF16TOF32(load3);
                  res3 = res3+BF16TOF32(load2)*BF16TOF32(load3);
                  load4 = ptrba[2*3+0];
                  load5 = ptrbb[2*3+0];
                  res0 = res0+BF16TOF32(load4)*BF16TOF32(load5);
                  load6 = ptrba[2*3+1];
                  res1 = res1+BF16TOF32(load6)*BF16TOF32(load5);
                  load7 = ptrbb[2*3+1];
                  res2 = res2+BF16TOF32(load4)*BF16TOF32(load7);
                  res3 = res3+BF16TOF32(load6)*BF16TOF32(load7);
                  ptrba = ptrba+8;
                  ptrbb = ptrbb+8;
               }
             for (k=0; k<(bk&3); k+=1)
               {
                  load0 = ptrba[2*0+0];
                  load1 = ptrbb[2*0+0];
                  res0 = res0+BF16TOF32(load0)*BF16TOF32(load1);
                  load2 = ptrba[2*0+1];
                  res1 = res1+BF16TOF32(load2)*BF16TOF32(load1);
                  load3 = ptrbb[2*0+1];
                  res2 = res2+BF16TOF32(load0)*BF16TOF32(load3);
                  res3 = res3+BF16TOF32(load2)*BF16TOF32(load3);
                  ptrba = ptrba+2;
                  ptrbb = ptrbb+2;
               }
             res0 = res0*alpha;
             C0[0] = F32TOBF16(BF16TOF32(C0[0])+res0);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C0[0]));
             res1 = res1*alpha;
             C0[1] = F32TOBF16(BF16TOF32(C0[1])+res1);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C0[1]));
             res2 = res2*alpha;
             C1[0] = F32TOBF16(BF16TOF32(C1[0])+res2);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C1[0]));
             res3 = res3*alpha;
             C1[1] = F32TOBF16(BF16TOF32(C1[1])+res3);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C1[1]));
             C0 = C0+2;
             C1 = C1+2;
          }
        for (i=0; i<(bm&1); i+=1)
          {
             ptrbb = bb;
             res0 = 0;
             res1 = 0;
             for (k=0; k<bk; k+=1)
               {
                  load0 = ptrba[0+0];
                  load1 = ptrbb[2*0+0];
                  res0 = res0+BF16TOF32(load0)*BF16TOF32(load1);
                  load2 = ptrbb[2*0+1];
                  res1 = res1+BF16TOF32(load0)*BF16TOF32(load2);
                  ptrba = ptrba+1;
                  ptrbb = ptrbb+2;
               }
             res0 = res0*alpha;
             C0[0] = F32TOBF16(BF16TOF32(C0[0])+res0);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C0[0]));
             res1 = res1*alpha;
             C1[0] = F32TOBF16(BF16TOF32(C1[1])+res1);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C1[0]));
             C0 = C0+1;
             C1 = C1+1;
          }
        k = (bk<<1);
        bb = bb+k;
        i = (ldc<<1);
        C = C+i;
     }
   for (j=0; j<(bn&1); j+=1)
     {
        C0 = C;
        ptrba = ba;
        for (i=0; i<bm/2; i+=1)
          {
             ptrbb = bb;
             res0 = 0;
             res1 = 0;
             for (k=0; k<bk; k+=1)
               {
                  load0 = ptrba[2*0+0];
                  load1 = ptrbb[0+0];
                  res0 = res0+BF16TOF32(load0)*BF16TOF32(load1);
                  load2 = ptrba[2*0+1];
                  res1 = res1+BF16TOF32(load2)*BF16TOF32(load1);
                  ptrba = ptrba+2;
                  ptrbb = ptrbb+1;
               }
             res0 = res0*alpha;
             C0[0] = F32TOBF16(BF16TOF32(C0[0])+res0);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C0[0]));
             res1 = res1*alpha;
             C0[1] = F32TOBF16(BF16TOF32(C0[1])+res1);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C0[1]));
             C0 = C0+2;
          }
        for (i=0; i<(bm&1); i+=1)
          {
             ptrbb = bb;
             res0 = 0;
             for (k=0; k<bk; k+=1)
               {
                  load0 = ptrba[0+0];
                  load1 = ptrbb[0+0];
                  res0 = res0+BF16TOF32(load0)*BF16TOF32(load1);
                  ptrba = ptrba+1;
                  ptrbb = ptrbb+1;
               }
             res0 = res0*alpha;
             C0[0] = F32TOBF16(BF16TOF32(C0[0])+res0);
             //printf("i = %d, j = %d, r = %.2f\n", i, j , BF16TOF32(C0[0]));
             C0 = C0+1;
          }
        k = (bk<<0);
        bb = bb+k;
        C = C+ldc;
     }
   return 0;
}