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DRB043-adi-parallel-no.c
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/**
* adi.c: This file is part of the PolyBench/C 3.2 test suite.
*
* Alternating Direction Implicit solver:
*
* Contact: Louis-Noel Pouchet <[email protected]>
* Web address: http://polybench.sourceforge.net
* License: /LICENSE.OSU.txt
*/
#include <stdio.h>
#include <unistd.h>
#include <string.h>
#include <math.h>
/* Include polybench common header. */
#include "polybench/polybench.h"
/* Include benchmark-specific header. */
/* Default data type is double, default size is 10x1024x1024. */
#include "polybench/adi.h"
/* Array initialization. */
static void init_array(int n,double X[500 + 0][500 + 0],double A[500 + 0][500 + 0],double B[500 + 0][500 + 0])
{
//int i;
//int j;
{
int c1;
int c2;
if (n >= 1) {
#pragma omp parallel for private(c2)
for (c1 = 0; c1 <= n + -1; c1++) {
for (c2 = 0; c2 <= n + -1; c2++) {
X[c1][c2] = (((double )c1) * (c2 + 1) + 1) / n;
A[c1][c2] = (((double )c1) * (c2 + 2) + 2) / n;
B[c1][c2] = (((double )c1) * (c2 + 3) + 3) / n;
}
}
}
}
}
/* DCE code. Must scan the entire live-out data.
Can be used also to check the correctness of the output. */
static void print_array(int n,double X[500 + 0][500 + 0])
{
int i;
int j;
for (i = 0; i < n; i++)
for (j = 0; j < n; j++) {
fprintf(stderr,"%0.2lf ",X[i][j]);
if ((i * 500 + j) % 20 == 0)
fprintf(stderr,"\n");
}
fprintf(stderr,"\n");
}
/* Main computational kernel. The whole function will be timed,
including the call and return. */
static void kernel_adi(int tsteps,int n,double X[500 + 0][500 + 0],double A[500 + 0][500 + 0],double B[500 + 0][500 + 0])
{
//int t;
//int i1;
//int i2;
//#pragma scop
{
int c0;
int c2;
int c8;
for (c0 = 0; c0 <= 9; c0++) {
#pragma omp parallel for private(c8)
for (c2 = 0; c2 <= 499; c2++) {
for (c8 = 1; c8 <= 499; c8++) {
B[c2][c8] = B[c2][c8] - A[c2][c8] * A[c2][c8] / B[c2][c8 - 1];
}
for (c8 = 1; c8 <= 499; c8++) {
X[c2][c8] = X[c2][c8] - X[c2][c8 - 1] * A[c2][c8] / B[c2][c8 - 1];
}
for (c8 = 0; c8 <= 497; c8++) {
X[c2][500 - c8 - 2] = (X[c2][500 - 2 - c8] - X[c2][500 - 2 - c8 - 1] * A[c2][500 - c8 - 3]) / B[c2][500 - 3 - c8];
}
}
#pragma omp parallel for
for (c2 = 0; c2 <= 499; c2++) {
X[c2][500 - 1] = X[c2][500 - 1] / B[c2][500 - 1];
}
#pragma omp parallel for private(c8)
for (c2 = 0; c2 <= 499; c2++) {
for (c8 = 1; c8 <= 499; c8++) {
B[c8][c2] = B[c8][c2] - A[c8][c2] * A[c8][c2] / B[c8 - 1][c2];
}
for (c8 = 1; c8 <= 499; c8++) {
X[c8][c2] = X[c8][c2] - X[c8 - 1][c2] * A[c8][c2] / B[c8 - 1][c2];
}
for (c8 = 0; c8 <= 497; c8++) {
X[500 - 2 - c8][c2] = (X[500 - 2 - c8][c2] - X[500 - c8 - 3][c2] * A[500 - 3 - c8][c2]) / B[500 - 2 - c8][c2];
}
}
#pragma omp parallel for
for (c2 = 0; c2 <= 499; c2++) {
X[500 - 1][c2] = X[500 - 1][c2] / B[500 - 1][c2];
}
}
}
//#pragma endscop
}
int main(int argc,char **argv)
{
/* Retrieve problem size. */
int n = 500;
int tsteps = 10;
/* Variable declaration/allocation. */
double (*X)[500 + 0][500 + 0];
X = ((double (*)[500 + 0][500 + 0])(polybench_alloc_data(((500 + 0) * (500 + 0)),(sizeof(double )))));
;
double (*A)[500 + 0][500 + 0];
A = ((double (*)[500 + 0][500 + 0])(polybench_alloc_data(((500 + 0) * (500 + 0)),(sizeof(double )))));
;
double (*B)[500 + 0][500 + 0];
B = ((double (*)[500 + 0][500 + 0])(polybench_alloc_data(((500 + 0) * (500 + 0)),(sizeof(double )))));
;
/* Initialize array(s). */
init_array(n, *X, *A, *B);
/* Start timer. */
polybench_timer_start();
;
/* Run kernel. */
kernel_adi(tsteps,n, *X, *A, *B);
/* Stop and print timer. */
polybench_timer_stop();
;
polybench_timer_print();
;
/* Prevent dead-code elimination. All live-out data must be printed
by the function call in argument. */
if (argc > 42 && !strcmp(argv[0],""))
print_array(n, *X);
/* Be clean. */
free(((void *)X));
;
free(((void *)A));
;
free(((void *)B));
;
return 0;
}