src/riscv-tests/mt/dv_matmul.c - public/gem5-resources - Git at Google

 #include "stdlib.h"

 #include "util.h"

 #include "dataset.h"
 void __attribute__((noinline)) matmul(const int coreid, const int ncores, const int lda,  const data_t A[], const data_t B[], data_t C[] )
 {

    // ***************************** //
    // **** ADD YOUR CODE HERE ***** //
    // ***************************** //
    //
    // feel free to make a separate function for MI and MSI versions.
    int i, j, k, ii, jj, kk;
    if(coreid > 1) return;
   if (coreid || ncores == 1) {
 // for ( ii = 0; ii < 32; ii+=IC )
          for ( kk = 0; kk < 32; kk+=16 )
    for ( j = 0; j < 16; j++ )
 // for ( j = 0; j < 16; j++ )
    {
       for ( i =  0; i < 32; i+=8 )
 //    for ( i = ii; i < ii + IC && i < 32; i+=8 )
       {
          data_t temp0 = C[i+j*32];
          data_t temp1 = C[i+j*32+1];
          data_t temp2 = C[i+j*32+2];
          data_t temp3 = C[i+j*32+3];
          data_t temp4 = C[i+j*32+4];
          data_t temp5 = C[i+j*32+5];
          data_t temp6 = C[i+j*32+6];
          data_t temp7 = C[i+j*32+7];
          for ( k = kk; k < kk+16 && k < 32; k++ )
 //       for ( k = 0; k < 32; k++ )
          {
             data_t tempA = A[j*32+k];
             temp0 += tempA * B[k*32 + i];
             temp1 += tempA * B[k*32 + i+1];
             temp2 += tempA * B[k*32 + i+2];
             temp3 += tempA * B[k*32 + i+3];
             temp4 += tempA * B[k*32 + i+4];
             temp5 += tempA * B[k*32 + i+5];
             temp6 += tempA * B[k*32 + i+6];
             temp7 += tempA * B[k*32 + i+7];
          }
          C[i+j*32] = temp0;
          C[i+j*32+1] = temp1;
          C[i+j*32+2] = temp2;
          C[i+j*32+3] = temp3;
          C[i+j*32+4] = temp4;
          C[i+j*32+5] = temp5;
          C[i+j*32+6] = temp6;
          C[i+j*32+7] = temp7;
       }
    }
   }
   if(coreid == 0){
 // for ( ii = 0; ii < 32; ii+=IC )
          for ( kk = 0; kk < 32; kk+=16 )
    for ( j = 16; j < 32; j++ )
 // for ( j = 16; j < 32; j++ )
    {
       for ( i =   0; i < 32; i+=8 )
 //    for ( i = ii; i < ii + IC && i < 32; i+=8 )
       {
          data_t temp0 = C[i+j*32];
          data_t temp1 = C[i+j*32+1];
          data_t temp2 = C[i+j*32+2];
          data_t temp3 = C[i+j*32+3];
          data_t temp4 = C[i+j*32+4];
          data_t temp5 = C[i+j*32+5];
          data_t temp6 = C[i+j*32+6];
          data_t temp7 = C[i+j*32+7];
          for ( k = kk; k < kk+16 && k < 32; k++ )
          {
             data_t tempA = A[j*32+k];
             temp0 += tempA * B[k*32 + i];
             temp1 += tempA * B[k*32 + i+1];
             temp2 += tempA * B[k*32 + i+2];
             temp3 += tempA * B[k*32 + i+3];
             temp4 += tempA * B[k*32 + i+4];
             temp5 += tempA * B[k*32 + i+5];
             temp6 += tempA * B[k*32 + i+6];
             temp7 += tempA * B[k*32 + i+7];
          }
          C[i+j*32] = temp0;
          C[i+j*32+1] = temp1;
          C[i+j*32+2] = temp2;
          C[i+j*32+3] = temp3;
          C[i+j*32+4] = temp4;
          C[i+j*32+5] = temp5;
          C[i+j*32+6] = temp6;
          C[i+j*32+7] = temp7;
       }

    }
   }
 }
	#include "stdlib.h"

	#include "util.h"

	#include "dataset.h"
	void __attribute__((noinline)) matmul(const int coreid, const int ncores, const int lda, const data_t A[], const data_t B[], data_t C[] )
	{

	// ***************************** //
	// ** ADD YOUR CODE HERE *** //
	// ***************************** //
	//
	// feel free to make a separate function for MI and MSI versions.
	int i, j, k, ii, jj, kk;
	if(coreid > 1) return;
	if (coreid \|\| ncores == 1) {
	// for ( ii = 0; ii < 32; ii+=IC )
	for ( kk = 0; kk < 32; kk+=16 )
	for ( j = 0; j < 16; j++ )
	// for ( j = 0; j < 16; j++ )
	{
	for ( i = 0; i < 32; i+=8 )
	// for ( i = ii; i < ii + IC && i < 32; i+=8 )
	{
	data_t temp0 = C[i+j*32];
	data_t temp1 = C[i+j*32+1];
	data_t temp2 = C[i+j*32+2];
	data_t temp3 = C[i+j*32+3];
	data_t temp4 = C[i+j*32+4];
	data_t temp5 = C[i+j*32+5];
	data_t temp6 = C[i+j*32+6];
	data_t temp7 = C[i+j*32+7];
	for ( k = kk; k < kk+16 && k < 32; k++ )
	// for ( k = 0; k < 32; k++ )
	{
	data_t tempA = A[j*32+k];
	temp0 += tempA * B[k*32 + i];
	temp1 += tempA * B[k*32 + i+1];
	temp2 += tempA * B[k*32 + i+2];
	temp3 += tempA * B[k*32 + i+3];
	temp4 += tempA * B[k*32 + i+4];
	temp5 += tempA * B[k*32 + i+5];
	temp6 += tempA * B[k*32 + i+6];
	temp7 += tempA * B[k*32 + i+7];
	}
	C[i+j*32] = temp0;
	C[i+j*32+1] = temp1;
	C[i+j*32+2] = temp2;
	C[i+j*32+3] = temp3;
	C[i+j*32+4] = temp4;
	C[i+j*32+5] = temp5;
	C[i+j*32+6] = temp6;
	C[i+j*32+7] = temp7;
	}
	}
	}
	if(coreid == 0){
	// for ( ii = 0; ii < 32; ii+=IC )
	for ( kk = 0; kk < 32; kk+=16 )
	for ( j = 16; j < 32; j++ )
	// for ( j = 16; j < 32; j++ )
	{
	for ( i = 0; i < 32; i+=8 )
	// for ( i = ii; i < ii + IC && i < 32; i+=8 )
	{
	data_t temp0 = C[i+j*32];
	data_t temp1 = C[i+j*32+1];
	data_t temp2 = C[i+j*32+2];
	data_t temp3 = C[i+j*32+3];
	data_t temp4 = C[i+j*32+4];
	data_t temp5 = C[i+j*32+5];
	data_t temp6 = C[i+j*32+6];
	data_t temp7 = C[i+j*32+7];
	for ( k = kk; k < kk+16 && k < 32; k++ )
	{
	data_t tempA = A[j*32+k];
	temp0 += tempA * B[k*32 + i];
	temp1 += tempA * B[k*32 + i+1];
	temp2 += tempA * B[k*32 + i+2];
	temp3 += tempA * B[k*32 + i+3];
	temp4 += tempA * B[k*32 + i+4];
	temp5 += tempA * B[k*32 + i+5];
	temp6 += tempA * B[k*32 + i+6];
	temp7 += tempA * B[k*32 + i+7];
	}
	C[i+j*32] = temp0;
	C[i+j*32+1] = temp1;
	C[i+j*32+2] = temp2;
	C[i+j*32+3] = temp3;
	C[i+j*32+4] = temp4;
	C[i+j*32+5] = temp5;
	C[i+j*32+6] = temp6;
	C[i+j*32+7] = temp7;
	}

	}
	}
	}