filename stringlengths 19 182 | omp_pragma_line stringlengths 24 416 | context_chars int64 100 100 | text stringlengths 152 177k |
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LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | -----------*/
k = 1;
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
lhs[2][i][j][k] = lhs[2][i][j][k] + comz5;
lhs[3][i][j][k] = lhs[3][i][j][k] - comz4;
lhs[4][i][j][k] = lhs[4][i][j][k] + comz1;
lhs[1][i][j][k+1] = lhs[1][i][j][k+1] - comz4;
lhs[2][i][j][k+1] = lhs[2][i][j][k+1] + comz6;
lhs[3][i][j][k+1] = lhs[3][i][j][k+1] - comz4;
lhs[4][i][j][k+1] = lhs[4][i][j][k+1] + comz1;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | k+1] = lhs[3][i][j][k+1] - comz4;
lhs[4][i][j][k+1] = lhs[4][i][j][k+1] + comz1;
}
}
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 3; k <= grid_points[2]-4; k++) {
lhs[0][i][j][k] = lhs[0][i][j][k] + comz1;
lhs[1][i][j][k] = lhs[1][i][j][k] - comz4;
lhs[2][i][j][k] = lhs[2][i][j][k] + comz6;
lhs[3][i][j][k] = lhs[3][i][j][k] - comz4;
lhs[4][i][j][k] = lhs[4][i][j][k] + comz1;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | +1] + comz1;
}
}
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 3; k <= grid_points[2]-4; k++) {
lhs[0][i][j][k] = lhs[0][i][j][k] + comz1;
lhs[1][i][j][k] = lhs[1][i][j][k] - comz4;
lhs[2][i][j][k] = lhs[2][i][j][k] + comz6;
lhs[3][i][j][k] = lhs[3][i][j][k] - comz4;
lhs[4][i][j][k] = lhs[4][i][j][k] + comz1;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | nts[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 3; k <= grid_points[2]-4; k++) {
lhs[0][i][j][k] = lhs[0][i][j][k] + comz1;
lhs[1][i][j][k] = lhs[1][i][j][k] - comz4;
lhs[2][i][j][k] = lhs[2][i][j][k] + comz6;
lhs[3][i][j][k] = lhs[3][i][j][k] - comz4;
lhs[4][i][j][k] = lhs[4][i][j][k] + comz1;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ] - comz4;
lhs[4][i][j][k] = lhs[4][i][j][k] + comz1;
}
}
}
k = grid_points[2]-3;
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
lhs[0][i][j][k] = lhs[0][i][j][k] + comz1;
lhs[1][i][j][k] = lhs[1][i][j][k] - comz4;
lhs[2][i][j][k] = lhs[2][i][j][k] + comz6;
lhs[3][i][j][k] = lhs[3][i][j][k] - comz4;
lhs[0][i][j][k+1] = lhs[0][i][j][k+1] + comz1;
lhs[1][i][j][k+1] = lhs[1][i][j][k+1] - comz4;
lhs[2][i][j][k+1] = lhs[2][i][j][k+1] + comz5;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | k = grid_points[2]-3;
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
lhs[0][i][j][k] = lhs[0][i][j][k] + comz1;
lhs[1][i][j][k] = lhs[1][i][j][k] - comz4;
lhs[2][i][j][k] = lhs[2][i][j][k] + comz6;
lhs[3][i][j][k] = lhs[3][i][j][k] - comz4;
lhs[0][i][j][k+1] = lhs[0][i][j][k+1] + comz1;
lhs[1][i][j][k+1] = lhs[1][i][j][k+1] - comz4;
lhs[2][i][j][k+1] = lhs[2][i][j][k+1] + comz5;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ther factors (u+c), (u-c)
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
lhs[0+5][i][j][k] = lhs[0][i][j][k];
lhs[1+5][i][j][k] = lhs[1][i][j][k] -
dttz2 * speed[i][j][k-1];
lhs[2+5][i][j][k] = lhs[2][i][j][k];
lhs[3+5][i][j][k] = lhs[3][i][j][k] +
dttz2 * speed[i][j][k+1];
lhs[4+5][i][j][k] = lhs[4][i][j][k];
lhs[0+10][i][j][k] = lhs[0][i][j][k];
lhs[1+10][i][j][k] = lhs[1][i][j][k] +
dttz2 * speed[i][j][k-1];
lhs[2+10][i][j][k] = lhs[2][i][j][k];
lhs[3+10][i][j][k] = lhs[3][i][j][k] -
dttz2 * speed[i][j][k+1];
lhs[4+10][i][j][k] = lhs[4][i][j][k];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ---------------------*/
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
lhs[0+5][i][j][k] = lhs[0][i][j][k];
lhs[1+5][i][j][k] = lhs[1][i][j][k] -
dttz2 * speed[i][j][k-1];
lhs[2+5][i][j][k] = lhs[2][i][j][k];
lhs[3+5][i][j][k] = lhs[3][i][j][k] +
dttz2 * speed[i][j][k+1];
lhs[4+5][i][j][k] = lhs[4][i][j][k];
lhs[0+10][i][j][k] = lhs[0][i][j][k];
lhs[1+10][i][j][k] = lhs[1][i][j][k] +
dttz2 * speed[i][j][k-1];
lhs[2+10][i][j][k] = lhs[2][i][j][k];
lhs[3+10][i][j][k] = lhs[3][i][j][k] -
dttz2 * speed[i][j][k+1];
lhs[4+10][i][j][k] = lhs[4][i][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | nts[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
lhs[0+5][i][j][k] = lhs[0][i][j][k];
lhs[1+5][i][j][k] = lhs[1][i][j][k] -
dttz2 * speed[i][j][k-1];
lhs[2+5][i][j][k] = lhs[2][i][j][k];
lhs[3+5][i][j][k] = lhs[3][i][j][k] +
dttz2 * speed[i][j][k+1];
lhs[4+5][i][j][k] = lhs[4][i][j][k];
lhs[0+10][i][j][k] = lhs[0][i][j][k];
lhs[1+10][i][j][k] = lhs[1][i][j][k] +
dttz2 * speed[i][j][k-1];
lhs[2+10][i][j][k] = lhs[2][i][j][k];
lhs[3+10][i][j][k] = lhs[3][i][j][k] -
dttz2 * speed[i][j][k+1];
lhs[4+10][i][j][k] = lhs[4][i][j][k];
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 ) | 100 | ------------------------------------------*/
int i, j, k;
double r1, r2, r3, r4, r5, t1, t2;
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2)
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2)
for (k = 1; k <= grid_points[2]-2; k++) {
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = bt * r3;
t2 = 0.5 * ( r4 + r5 );
rhs[0][i][j][k] = -r2;
rhs[1][i][j][k] = r1;
rhs[2][i][j][k] = bt * ( r4 - r5 );
rhs[3][i][j][k] = -t1 + t2;
rhs[4][i][j][k] = t1 + t2;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2) | 100 | parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2)
for (k = 1; k <= grid_points[2]-2; k++) {
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = bt * r3;
t2 = 0.5 * ( r4 + r5 );
rhs[0][i][j][k] = -r2;
rhs[1][i][j][k] = r1;
rhs[2][i][j][k] = bt * ( r4 - r5 );
rhs[3][i][j][k] = -t1 + t2;
rhs[4][i][j][k] = t1 + t2;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2) | 100 | rallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = bt * r3;
t2 = 0.5 * ( r4 + r5 );
rhs[0][i][j][k] = -r2;
rhs[1][i][j][k] = r1;
rhs[2][i][j][k] = bt * ( r4 - r5 );
rhs[3][i][j][k] = -t1 + t2;
rhs[4][i][j][k] = t1 + t2;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 ) | 100 | -----------------------------------------*/
int i, j, k;
double r1, r2, r3, r4, r5, t1, t2;
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )
for (k = 1; k <= grid_points[2]-2; k++) {
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = bt * r1;
t2 = 0.5 * ( r4 + r5 );
rhs[0][i][j][k] = bt * ( r4 - r5 );
rhs[1][i][j][k] = -r3;
rhs[2][i][j][k] = r2;
rhs[3][i][j][k] = -t1 + t2;
rhs[4][i][j][k] = t1 + t2;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 ) | 100 | parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )
for (k = 1; k <= grid_points[2]-2; k++) {
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = bt * r1;
t2 = 0.5 * ( r4 + r5 );
rhs[0][i][j][k] = bt * ( r4 - r5 );
rhs[1][i][j][k] = -r3;
rhs[2][i][j][k] = r2;
rhs[3][i][j][k] = -t1 + t2;
rhs[4][i][j][k] = t1 + t2;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 ) | 100 | rallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = bt * r1;
t2 = 0.5 * ( r4 + r5 );
rhs[0][i][j][k] = bt * ( r4 - r5 );
rhs[1][i][j][k] = -r3;
rhs[2][i][j][k] = r2;
rhs[3][i][j][k] = -t1 + t2;
rhs[4][i][j][k] = t1 + t2;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(r1 ,r2 ,r3 ,r4 ,r5 ,t1 ,t2 )<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(rho_inv ,aux) | 100 | and the speed of sound.
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i <= grid_points[0]-1; i++) {
#pragma omp parallel for private(rho_inv ,aux)
for (j = 0; j <= grid_points[1]-1; j++) {
#pragma omp parallel for private(rho_inv ,aux)
for (k = 0; k <= grid_points[2]-1; k++) {
rho_inv = 1.0/u[0][i][j][k];
rho_i[i][j][k] = rho_inv;
us[i][j][k] = u[1][i][j][k] * rho_inv;
vs[i][j][k] = u[2][i][j][k] * rho_inv;
ws[i][j][k] = u[3][i][j][k] * rho_inv;
square[i][j][k] = 0.5* (u[1][i][j][k]*u[1][i][j][k] +
u[2][i][j][k]*u[2][i][j][k] +
u[3][i][j][k]*u[3][i][j][k] ) * rho_inv;
qs[i][j][k] = square[i][j][k] * rho_inv;
/*--------------------------------------------------------------------
c (do not need speed and ainx until the lhs computation)
c-------------------------------------------------------------------*/
aux = c1c2*rho_inv* (u[4][i][j][k] - square[i][j][k]);
aux = sqrt(aux);
speed[i][j][k] = aux;
ainv[i][j][k] = 1.0/aux;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(rho_inv ,aux)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(rho_inv ,aux) | 100 | /
#pragma omp parallel for private(rho_inv ,aux)
for (i = 0; i <= grid_points[0]-1; i++) {
<LOOP-START>for (j = 0; j <= grid_points[1]-1; j++) {
#pragma omp parallel for private(rho_inv ,aux)
for (k = 0; k <= grid_points[2]-1; k++) {
rho_inv = 1.0/u[0][i][j][k];
rho_i[i][j][k] = rho_inv;
us[i][j][k] = u[1][i][j][k] * rho_inv;
vs[i][j][k] = u[2][i][j][k] * rho_inv;
ws[i][j][k] = u[3][i][j][k] * rho_inv;
square[i][j][k] = 0.5* (u[1][i][j][k]*u[1][i][j][k] +
u[2][i][j][k]*u[2][i][j][k] +
u[3][i][j][k]*u[3][i][j][k] ) * rho_inv;
qs[i][j][k] = square[i][j][k] * rho_inv;
/*--------------------------------------------------------------------
c (do not need speed and ainx until the lhs computation)
c-------------------------------------------------------------------*/
aux = c1c2*rho_inv* (u[4][i][j][k] - square[i][j][k]);
aux = sqrt(aux);
speed[i][j][k] = aux;
ainv[i][j][k] = 1.0/aux;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(rho_inv ,aux)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(rho_inv ,aux) | 100 | #pragma omp parallel for private(rho_inv ,aux)
for (j = 0; j <= grid_points[1]-1; j++) {
<LOOP-START>for (k = 0; k <= grid_points[2]-1; k++) {
rho_inv = 1.0/u[0][i][j][k];
rho_i[i][j][k] = rho_inv;
us[i][j][k] = u[1][i][j][k] * rho_inv;
vs[i][j][k] = u[2][i][j][k] * rho_inv;
ws[i][j][k] = u[3][i][j][k] * rho_inv;
square[i][j][k] = 0.5* (u[1][i][j][k]*u[1][i][j][k] +
u[2][i][j][k]*u[2][i][j][k] +
u[3][i][j][k]*u[3][i][j][k] ) * rho_inv;
qs[i][j][k] = square[i][j][k] * rho_inv;
/*--------------------------------------------------------------------
c (do not need speed and ainx until the lhs computation)
c-------------------------------------------------------------------*/
aux = c1c2*rho_inv* (u[4][i][j][k] - square[i][j][k]);
aux = sqrt(aux);
speed[i][j][k] = aux;
ainv[i][j][k] = 1.0/aux;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(rho_inv ,aux)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | oundary
c-------------------------------------------------------------------*/
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 0; i <= grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 0; j <= grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 0; k <= grid_points[2]-1; k++) {
rhs[m][i][j][k] = forcing[m][i][j][k];
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | --------------------------------------*/
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 0; i <= grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 0; j <= grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 0; k <= grid_points[2]-1; k++) {
rhs[m][i][j][k] = forcing[m][i][j][k];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 0; i <= grid_points[0]-1; i++) {
<LOOP-START>for (j = 0; j <= grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 0; k <= grid_points[2]-1; k++) {
rhs[m][i][j][k] = forcing[m][i][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | points[0]-1; i++) {
#pragma omp parallel for
for (j = 0; j <= grid_points[1]-1; j++) {
<LOOP-START>for (k = 0; k <= grid_points[2]-1; k++) {
rhs[m][i][j][k] = forcing[m][i][j][k];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(uijk, up1, um1) | 100 | mpute xi-direction fluxes
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for private(uijk, up1, um1)
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(uijk, up1, um1)
for (k = 1; k <= grid_points[2]-2; k++) {
uijk = us[i][j][k];
up1 = us[i+1][j][k];
um1 = us[i-1][j][k];
rhs[0][i][j][k] = rhs[0][i][j][k] + dx1tx1 *
(u[0][i+1][j][k] - 2.0*u[0][i][j][k] +
u[0][i-1][j][k]) -
tx2 * (u[1][i+1][j][k] - u[1][i-1][j][k]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dx2tx1 *
(u[1][i+1][j][k] - 2.0*u[1][i][j][k] +
u[1][i-1][j][k]) +
xxcon2*con43 * (up1 - 2.0*uijk + um1) -
tx2 * (u[1][i+1][j][k]*up1 -
u[1][i-1][j][k]*um1 +
(u[4][i+1][j][k]- square[i+1][j][k]-
u[4][i-1][j][k]+ square[i-1][j][k])*
c2);
rhs[2][i][j][k] = rhs[2][i][j][k] + dx3tx1 *
(u[2][i+1][j][k] - 2.0*u[2][i][j][k] +
u[2][i-1][j][k]) +
xxcon2 * (vs[i+1][j][k] - 2.0*vs[i][j][k] +
vs[i-1][j][k]) -
tx2 * (u[2][i+1][j][k]*up1 -
u[2][i-1][j][k]*um1);
rhs[3][i][j][k] = rhs[3][i][j][k] + dx4tx1 *
(u[3][i+1][j][k] - 2.0*u[3][i][j][k] +
u[3][i-1][j][k]) +
xxcon2 * (ws[i+1][j][k] - 2.0*ws[i][j][k] +
ws[i-1][j][k]) -
tx2 * (u[3][i+1][j][k]*up1 -
u[3][i-1][j][k]*um1);
rhs[4][i][j][k] = rhs[4][i][j][k] + dx5tx1 *
(u[4][i+1][j][k] - 2.0*u[4][i][j][k] +
u[4][i-1][j][k]) +
xxcon3 * (qs[i+1][j][k] - 2.0*qs[i][j][k] +
qs[i-1][j][k]) +
xxcon4 * (up1*up1 - 2.0*uijk*uijk +
um1*um1) +
xxcon5 * (u[4][i+1][j][k]*rho_i[i+1][j][k] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i-1][j][k]*rho_i[i-1][j][k]) -
tx2 * ( (c1*u[4][i+1][j][k] -
c2*square[i+1][j][k])*up1 -
(c1*u[4][i-1][j][k] -
c2*square[i-1][j][k])*um1 );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(uijk, up1, um1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(uijk, up1, um1) | 100 |
#pragma omp parallel for private(uijk, up1, um1)
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(uijk, up1, um1)
for (k = 1; k <= grid_points[2]-2; k++) {
uijk = us[i][j][k];
up1 = us[i+1][j][k];
um1 = us[i-1][j][k];
rhs[0][i][j][k] = rhs[0][i][j][k] + dx1tx1 *
(u[0][i+1][j][k] - 2.0*u[0][i][j][k] +
u[0][i-1][j][k]) -
tx2 * (u[1][i+1][j][k] - u[1][i-1][j][k]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dx2tx1 *
(u[1][i+1][j][k] - 2.0*u[1][i][j][k] +
u[1][i-1][j][k]) +
xxcon2*con43 * (up1 - 2.0*uijk + um1) -
tx2 * (u[1][i+1][j][k]*up1 -
u[1][i-1][j][k]*um1 +
(u[4][i+1][j][k]- square[i+1][j][k]-
u[4][i-1][j][k]+ square[i-1][j][k])*
c2);
rhs[2][i][j][k] = rhs[2][i][j][k] + dx3tx1 *
(u[2][i+1][j][k] - 2.0*u[2][i][j][k] +
u[2][i-1][j][k]) +
xxcon2 * (vs[i+1][j][k] - 2.0*vs[i][j][k] +
vs[i-1][j][k]) -
tx2 * (u[2][i+1][j][k]*up1 -
u[2][i-1][j][k]*um1);
rhs[3][i][j][k] = rhs[3][i][j][k] + dx4tx1 *
(u[3][i+1][j][k] - 2.0*u[3][i][j][k] +
u[3][i-1][j][k]) +
xxcon2 * (ws[i+1][j][k] - 2.0*ws[i][j][k] +
ws[i-1][j][k]) -
tx2 * (u[3][i+1][j][k]*up1 -
u[3][i-1][j][k]*um1);
rhs[4][i][j][k] = rhs[4][i][j][k] + dx5tx1 *
(u[4][i+1][j][k] - 2.0*u[4][i][j][k] +
u[4][i-1][j][k]) +
xxcon3 * (qs[i+1][j][k] - 2.0*qs[i][j][k] +
qs[i-1][j][k]) +
xxcon4 * (up1*up1 - 2.0*uijk*uijk +
um1*um1) +
xxcon5 * (u[4][i+1][j][k]*rho_i[i+1][j][k] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i-1][j][k]*rho_i[i-1][j][k]) -
tx2 * ( (c1*u[4][i+1][j][k] -
c2*square[i+1][j][k])*up1 -
(c1*u[4][i-1][j][k] -
c2*square[i-1][j][k])*um1 );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(uijk, up1, um1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(uijk, up1, um1) | 100 | pragma omp parallel for private(uijk, up1, um1)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
uijk = us[i][j][k];
up1 = us[i+1][j][k];
um1 = us[i-1][j][k];
rhs[0][i][j][k] = rhs[0][i][j][k] + dx1tx1 *
(u[0][i+1][j][k] - 2.0*u[0][i][j][k] +
u[0][i-1][j][k]) -
tx2 * (u[1][i+1][j][k] - u[1][i-1][j][k]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dx2tx1 *
(u[1][i+1][j][k] - 2.0*u[1][i][j][k] +
u[1][i-1][j][k]) +
xxcon2*con43 * (up1 - 2.0*uijk + um1) -
tx2 * (u[1][i+1][j][k]*up1 -
u[1][i-1][j][k]*um1 +
(u[4][i+1][j][k]- square[i+1][j][k]-
u[4][i-1][j][k]+ square[i-1][j][k])*
c2);
rhs[2][i][j][k] = rhs[2][i][j][k] + dx3tx1 *
(u[2][i+1][j][k] - 2.0*u[2][i][j][k] +
u[2][i-1][j][k]) +
xxcon2 * (vs[i+1][j][k] - 2.0*vs[i][j][k] +
vs[i-1][j][k]) -
tx2 * (u[2][i+1][j][k]*up1 -
u[2][i-1][j][k]*um1);
rhs[3][i][j][k] = rhs[3][i][j][k] + dx4tx1 *
(u[3][i+1][j][k] - 2.0*u[3][i][j][k] +
u[3][i-1][j][k]) +
xxcon2 * (ws[i+1][j][k] - 2.0*ws[i][j][k] +
ws[i-1][j][k]) -
tx2 * (u[3][i+1][j][k]*up1 -
u[3][i-1][j][k]*um1);
rhs[4][i][j][k] = rhs[4][i][j][k] + dx5tx1 *
(u[4][i+1][j][k] - 2.0*u[4][i][j][k] +
u[4][i-1][j][k]) +
xxcon3 * (qs[i+1][j][k] - 2.0*qs[i][j][k] +
qs[i-1][j][k]) +
xxcon4 * (up1*up1 - 2.0*uijk*uijk +
um1*um1) +
xxcon5 * (u[4][i+1][j][k]*rho_i[i+1][j][k] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i-1][j][k]*rho_i[i-1][j][k]) -
tx2 * ( (c1*u[4][i+1][j][k] -
c2*square[i+1][j][k])*up1 -
(c1*u[4][i-1][j][k] -
c2*square[i-1][j][k])*um1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(uijk, up1, um1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | n
c-------------------------------------------------------------------*/
i = 1;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ----------------------------*/
i = 1;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 |
( 5.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k]);
}
}
}
i = 2;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i-1][j][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i+1][j][k] + u[m][i+2][j][k]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | +2][j][k]);
}
}
}
i = 2;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i-1][j][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i+1][j][k] + u[m][i+2][j][k]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i-1][j][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i+1][j][k] + u[m][i+2][j][k]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ][i-1][j][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i+1][j][k] + u[m][i+2][j][k]);
}
}
}
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 3*1; i <= grid_points[0]-3*1-1; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k] );
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | + u[m][i+2][j][k]);
}
}
}
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 3*1; i <= grid_points[0]-3*1-1; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | < 5; m++) {
#pragma omp parallel for
for (i = 3*1; i <= grid_points[0]-3*1-1; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | [0]-3*1-1; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | - 4.0*u[m][i+1][j][k] +
u[m][i+2][j][k] );
}
}
}
}
i = grid_points[0]-3;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | }
}
}
i = grid_points[0]-3;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | [k] +
6.0*u[m][i][j][k] - 4.0*u[m][i+1][j][k] );
}
}
}
i = grid_points[0]-2;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
5.0*u[m][i][j][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | }
}
}
i = grid_points[0]-2;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
5.0*u[m][i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i-2][j][k] - 4.0*u[m][i-1][j][k] +
5.0*u[m][i][j][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(vijk, vp1, vm1) | 100 | pute eta-direction fluxes
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for private(vijk, vp1, vm1)
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(vijk, vp1, vm1)
for (k = 1; k <= grid_points[2]-2; k++) {
vijk = vs[i][j][k];
vp1 = vs[i][j+1][k];
vm1 = vs[i][j-1][k];
rhs[0][i][j][k] = rhs[0][i][j][k] + dy1ty1 *
(u[0][i][j+1][k] - 2.0*u[0][i][j][k] +
u[0][i][j-1][k]) -
ty2 * (u[2][i][j+1][k] - u[2][i][j-1][k]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dy2ty1 *
(u[1][i][j+1][k] - 2.0*u[1][i][j][k] +
u[1][i][j-1][k]) +
yycon2 * (us[i][j+1][k] - 2.0*us[i][j][k] +
us[i][j-1][k]) -
ty2 * (u[1][i][j+1][k]*vp1 -
u[1][i][j-1][k]*vm1);
rhs[2][i][j][k] = rhs[2][i][j][k] + dy3ty1 *
(u[2][i][j+1][k] - 2.0*u[2][i][j][k] +
u[2][i][j-1][k]) +
yycon2*con43 * (vp1 - 2.0*vijk + vm1) -
ty2 * (u[2][i][j+1][k]*vp1 -
u[2][i][j-1][k]*vm1 +
(u[4][i][j+1][k] - square[i][j+1][k] -
u[4][i][j-1][k] + square[i][j-1][k])
*c2);
rhs[3][i][j][k] = rhs[3][i][j][k] + dy4ty1 *
(u[3][i][j+1][k] - 2.0*u[3][i][j][k] +
u[3][i][j-1][k]) +
yycon2 * (ws[i][j+1][k] - 2.0*ws[i][j][k] +
ws[i][j-1][k]) -
ty2 * (u[3][i][j+1][k]*vp1 -
u[3][i][j-1][k]*vm1);
rhs[4][i][j][k] = rhs[4][i][j][k] + dy5ty1 *
(u[4][i][j+1][k] - 2.0*u[4][i][j][k] +
u[4][i][j-1][k]) +
yycon3 * (qs[i][j+1][k] - 2.0*qs[i][j][k] +
qs[i][j-1][k]) +
yycon4 * (vp1*vp1 - 2.0*vijk*vijk +
vm1*vm1) +
yycon5 * (u[4][i][j+1][k]*rho_i[i][j+1][k] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i][j-1][k]*rho_i[i][j-1][k]) -
ty2 * ((c1*u[4][i][j+1][k] -
c2*square[i][j+1][k]) * vp1 -
(c1*u[4][i][j-1][k] -
c2*square[i][j-1][k]) * vm1);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(vijk, vp1, vm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(vijk, vp1, vm1) | 100 |
#pragma omp parallel for private(vijk, vp1, vm1)
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(vijk, vp1, vm1)
for (k = 1; k <= grid_points[2]-2; k++) {
vijk = vs[i][j][k];
vp1 = vs[i][j+1][k];
vm1 = vs[i][j-1][k];
rhs[0][i][j][k] = rhs[0][i][j][k] + dy1ty1 *
(u[0][i][j+1][k] - 2.0*u[0][i][j][k] +
u[0][i][j-1][k]) -
ty2 * (u[2][i][j+1][k] - u[2][i][j-1][k]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dy2ty1 *
(u[1][i][j+1][k] - 2.0*u[1][i][j][k] +
u[1][i][j-1][k]) +
yycon2 * (us[i][j+1][k] - 2.0*us[i][j][k] +
us[i][j-1][k]) -
ty2 * (u[1][i][j+1][k]*vp1 -
u[1][i][j-1][k]*vm1);
rhs[2][i][j][k] = rhs[2][i][j][k] + dy3ty1 *
(u[2][i][j+1][k] - 2.0*u[2][i][j][k] +
u[2][i][j-1][k]) +
yycon2*con43 * (vp1 - 2.0*vijk + vm1) -
ty2 * (u[2][i][j+1][k]*vp1 -
u[2][i][j-1][k]*vm1 +
(u[4][i][j+1][k] - square[i][j+1][k] -
u[4][i][j-1][k] + square[i][j-1][k])
*c2);
rhs[3][i][j][k] = rhs[3][i][j][k] + dy4ty1 *
(u[3][i][j+1][k] - 2.0*u[3][i][j][k] +
u[3][i][j-1][k]) +
yycon2 * (ws[i][j+1][k] - 2.0*ws[i][j][k] +
ws[i][j-1][k]) -
ty2 * (u[3][i][j+1][k]*vp1 -
u[3][i][j-1][k]*vm1);
rhs[4][i][j][k] = rhs[4][i][j][k] + dy5ty1 *
(u[4][i][j+1][k] - 2.0*u[4][i][j][k] +
u[4][i][j-1][k]) +
yycon3 * (qs[i][j+1][k] - 2.0*qs[i][j][k] +
qs[i][j-1][k]) +
yycon4 * (vp1*vp1 - 2.0*vijk*vijk +
vm1*vm1) +
yycon5 * (u[4][i][j+1][k]*rho_i[i][j+1][k] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i][j-1][k]*rho_i[i][j-1][k]) -
ty2 * ((c1*u[4][i][j+1][k] -
c2*square[i][j+1][k]) * vp1 -
(c1*u[4][i][j-1][k] -
c2*square[i][j-1][k]) * vm1);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(vijk, vp1, vm1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(vijk, vp1, vm1) | 100 | ragma omp parallel for private(vijk, vp1, vm1)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
vijk = vs[i][j][k];
vp1 = vs[i][j+1][k];
vm1 = vs[i][j-1][k];
rhs[0][i][j][k] = rhs[0][i][j][k] + dy1ty1 *
(u[0][i][j+1][k] - 2.0*u[0][i][j][k] +
u[0][i][j-1][k]) -
ty2 * (u[2][i][j+1][k] - u[2][i][j-1][k]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dy2ty1 *
(u[1][i][j+1][k] - 2.0*u[1][i][j][k] +
u[1][i][j-1][k]) +
yycon2 * (us[i][j+1][k] - 2.0*us[i][j][k] +
us[i][j-1][k]) -
ty2 * (u[1][i][j+1][k]*vp1 -
u[1][i][j-1][k]*vm1);
rhs[2][i][j][k] = rhs[2][i][j][k] + dy3ty1 *
(u[2][i][j+1][k] - 2.0*u[2][i][j][k] +
u[2][i][j-1][k]) +
yycon2*con43 * (vp1 - 2.0*vijk + vm1) -
ty2 * (u[2][i][j+1][k]*vp1 -
u[2][i][j-1][k]*vm1 +
(u[4][i][j+1][k] - square[i][j+1][k] -
u[4][i][j-1][k] + square[i][j-1][k])
*c2);
rhs[3][i][j][k] = rhs[3][i][j][k] + dy4ty1 *
(u[3][i][j+1][k] - 2.0*u[3][i][j][k] +
u[3][i][j-1][k]) +
yycon2 * (ws[i][j+1][k] - 2.0*ws[i][j][k] +
ws[i][j-1][k]) -
ty2 * (u[3][i][j+1][k]*vp1 -
u[3][i][j-1][k]*vm1);
rhs[4][i][j][k] = rhs[4][i][j][k] + dy5ty1 *
(u[4][i][j+1][k] - 2.0*u[4][i][j][k] +
u[4][i][j-1][k]) +
yycon3 * (qs[i][j+1][k] - 2.0*qs[i][j][k] +
qs[i][j-1][k]) +
yycon4 * (vp1*vp1 - 2.0*vijk*vijk +
vm1*vm1) +
yycon5 * (u[4][i][j+1][k]*rho_i[i][j+1][k] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i][j-1][k]*rho_i[i][j-1][k]) -
ty2 * ((c1*u[4][i][j+1][k] -
c2*square[i][j+1][k]) * vp1 -
(c1*u[4][i][j-1][k] -
c2*square[i][j-1][k]) * vm1);
}<LOOP-END> <OMP-START>#pragma omp parallel for private(vijk, vp1, vm1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ipation
c-------------------------------------------------------------------*/
j = 1;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | --------------------------*/
j = 1;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ( 5.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k]);
}
}
}
j = 2;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i][j-1][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j+1][k] + u[m][i][j+2][k]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ][j+2][k]);
}
}
}
j = 2;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i][j-1][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j+1][k] + u[m][i][j+2][k]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i][j-1][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j+1][k] + u[m][i][j+2][k]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ][i][j-1][k] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j+1][k] + u[m][i][j+2][k]);
}
}
}
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 3*1; j <= grid_points[1]-3*1-1; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k] );
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | + u[m][i][j+2][k]);
}
}
}
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 3*1; j <= grid_points[1]-3*1-1; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 3*1; j <= grid_points[1]-3*1-1; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ]-2; i++) {
#pragma omp parallel for
for (j = 3*1; j <= grid_points[1]-3*1-1; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 4.0*u[m][i][j+1][k] +
u[m][i][j+2][k] );
}
}
}
}
j = grid_points[1]-3;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | }
}
}
j = grid_points[1]-3;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | [k] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j+1][k] );
}
}
}
j = grid_points[1]-2;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
5.0*u[m][i][j][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | }
}
}
j = grid_points[1]-2;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
5.0*u[m][i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j-2][k] - 4.0*u[m][i][j-1][k] +
5.0*u[m][i][j][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(wijk, wp1, wm1) | 100 | ute zeta-direction fluxes
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for private(wijk, wp1, wm1)
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(wijk, wp1, wm1)
for (k = 1; k <= grid_points[2]-2; k++) {
wijk = ws[i][j][k];
wp1 = ws[i][j][k+1];
wm1 = ws[i][j][k-1];
rhs[0][i][j][k] = rhs[0][i][j][k] + dz1tz1 *
(u[0][i][j][k+1] - 2.0*u[0][i][j][k] +
u[0][i][j][k-1]) -
tz2 * (u[3][i][j][k+1] - u[3][i][j][k-1]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dz2tz1 *
(u[1][i][j][k+1] - 2.0*u[1][i][j][k] +
u[1][i][j][k-1]) +
zzcon2 * (us[i][j][k+1] - 2.0*us[i][j][k] +
us[i][j][k-1]) -
tz2 * (u[1][i][j][k+1]*wp1 -
u[1][i][j][k-1]*wm1);
rhs[2][i][j][k] = rhs[2][i][j][k] + dz3tz1 *
(u[2][i][j][k+1] - 2.0*u[2][i][j][k] +
u[2][i][j][k-1]) +
zzcon2 * (vs[i][j][k+1] - 2.0*vs[i][j][k] +
vs[i][j][k-1]) -
tz2 * (u[2][i][j][k+1]*wp1 -
u[2][i][j][k-1]*wm1);
rhs[3][i][j][k] = rhs[3][i][j][k] + dz4tz1 *
(u[3][i][j][k+1] - 2.0*u[3][i][j][k] +
u[3][i][j][k-1]) +
zzcon2*con43 * (wp1 - 2.0*wijk + wm1) -
tz2 * (u[3][i][j][k+1]*wp1 -
u[3][i][j][k-1]*wm1 +
(u[4][i][j][k+1] - square[i][j][k+1] -
u[4][i][j][k-1] + square[i][j][k-1])
*c2);
rhs[4][i][j][k] = rhs[4][i][j][k] + dz5tz1 *
(u[4][i][j][k+1] - 2.0*u[4][i][j][k] +
u[4][i][j][k-1]) +
zzcon3 * (qs[i][j][k+1] - 2.0*qs[i][j][k] +
qs[i][j][k-1]) +
zzcon4 * (wp1*wp1 - 2.0*wijk*wijk +
wm1*wm1) +
zzcon5 * (u[4][i][j][k+1]*rho_i[i][j][k+1] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i][j][k-1]*rho_i[i][j][k-1]) -
tz2 * ( (c1*u[4][i][j][k+1] -
c2*square[i][j][k+1])*wp1 -
(c1*u[4][i][j][k-1] -
c2*square[i][j][k-1])*wm1);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(wijk, wp1, wm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(wijk, wp1, wm1) | 100 | /
#pragma omp parallel for private(wijk, wp1, wm1)
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(wijk, wp1, wm1)
for (k = 1; k <= grid_points[2]-2; k++) {
wijk = ws[i][j][k];
wp1 = ws[i][j][k+1];
wm1 = ws[i][j][k-1];
rhs[0][i][j][k] = rhs[0][i][j][k] + dz1tz1 *
(u[0][i][j][k+1] - 2.0*u[0][i][j][k] +
u[0][i][j][k-1]) -
tz2 * (u[3][i][j][k+1] - u[3][i][j][k-1]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dz2tz1 *
(u[1][i][j][k+1] - 2.0*u[1][i][j][k] +
u[1][i][j][k-1]) +
zzcon2 * (us[i][j][k+1] - 2.0*us[i][j][k] +
us[i][j][k-1]) -
tz2 * (u[1][i][j][k+1]*wp1 -
u[1][i][j][k-1]*wm1);
rhs[2][i][j][k] = rhs[2][i][j][k] + dz3tz1 *
(u[2][i][j][k+1] - 2.0*u[2][i][j][k] +
u[2][i][j][k-1]) +
zzcon2 * (vs[i][j][k+1] - 2.0*vs[i][j][k] +
vs[i][j][k-1]) -
tz2 * (u[2][i][j][k+1]*wp1 -
u[2][i][j][k-1]*wm1);
rhs[3][i][j][k] = rhs[3][i][j][k] + dz4tz1 *
(u[3][i][j][k+1] - 2.0*u[3][i][j][k] +
u[3][i][j][k-1]) +
zzcon2*con43 * (wp1 - 2.0*wijk + wm1) -
tz2 * (u[3][i][j][k+1]*wp1 -
u[3][i][j][k-1]*wm1 +
(u[4][i][j][k+1] - square[i][j][k+1] -
u[4][i][j][k-1] + square[i][j][k-1])
*c2);
rhs[4][i][j][k] = rhs[4][i][j][k] + dz5tz1 *
(u[4][i][j][k+1] - 2.0*u[4][i][j][k] +
u[4][i][j][k-1]) +
zzcon3 * (qs[i][j][k+1] - 2.0*qs[i][j][k] +
qs[i][j][k-1]) +
zzcon4 * (wp1*wp1 - 2.0*wijk*wijk +
wm1*wm1) +
zzcon5 * (u[4][i][j][k+1]*rho_i[i][j][k+1] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i][j][k-1]*rho_i[i][j][k-1]) -
tz2 * ( (c1*u[4][i][j][k+1] -
c2*square[i][j][k+1])*wp1 -
(c1*u[4][i][j][k-1] -
c2*square[i][j][k-1])*wm1);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(wijk, wp1, wm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(wijk, wp1, wm1) | 100 | pragma omp parallel for private(wijk, wp1, wm1)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
wijk = ws[i][j][k];
wp1 = ws[i][j][k+1];
wm1 = ws[i][j][k-1];
rhs[0][i][j][k] = rhs[0][i][j][k] + dz1tz1 *
(u[0][i][j][k+1] - 2.0*u[0][i][j][k] +
u[0][i][j][k-1]) -
tz2 * (u[3][i][j][k+1] - u[3][i][j][k-1]);
rhs[1][i][j][k] = rhs[1][i][j][k] + dz2tz1 *
(u[1][i][j][k+1] - 2.0*u[1][i][j][k] +
u[1][i][j][k-1]) +
zzcon2 * (us[i][j][k+1] - 2.0*us[i][j][k] +
us[i][j][k-1]) -
tz2 * (u[1][i][j][k+1]*wp1 -
u[1][i][j][k-1]*wm1);
rhs[2][i][j][k] = rhs[2][i][j][k] + dz3tz1 *
(u[2][i][j][k+1] - 2.0*u[2][i][j][k] +
u[2][i][j][k-1]) +
zzcon2 * (vs[i][j][k+1] - 2.0*vs[i][j][k] +
vs[i][j][k-1]) -
tz2 * (u[2][i][j][k+1]*wp1 -
u[2][i][j][k-1]*wm1);
rhs[3][i][j][k] = rhs[3][i][j][k] + dz4tz1 *
(u[3][i][j][k+1] - 2.0*u[3][i][j][k] +
u[3][i][j][k-1]) +
zzcon2*con43 * (wp1 - 2.0*wijk + wm1) -
tz2 * (u[3][i][j][k+1]*wp1 -
u[3][i][j][k-1]*wm1 +
(u[4][i][j][k+1] - square[i][j][k+1] -
u[4][i][j][k-1] + square[i][j][k-1])
*c2);
rhs[4][i][j][k] = rhs[4][i][j][k] + dz5tz1 *
(u[4][i][j][k+1] - 2.0*u[4][i][j][k] +
u[4][i][j][k-1]) +
zzcon3 * (qs[i][j][k+1] - 2.0*qs[i][j][k] +
qs[i][j][k-1]) +
zzcon4 * (wp1*wp1 - 2.0*wijk*wijk +
wm1*wm1) +
zzcon5 * (u[4][i][j][k+1]*rho_i[i][j][k+1] -
2.0*u[4][i][j][k]*rho_i[i][j][k] +
u[4][i][j][k-1]*rho_i[i][j][k-1]) -
tz2 * ( (c1*u[4][i][j][k+1] -
c2*square[i][j][k+1])*wp1 -
(c1*u[4][i][j][k-1] -
c2*square[i][j][k-1])*wm1);
}<LOOP-END> <OMP-START>#pragma omp parallel for private(wijk, wp1, wm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 |
c-------------------------------------------------------------------*/
k = 1;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ---------------------------*/
k = 1;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k]- dssp *
( 5.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ( 5.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2]);
}
}
}
k = 2;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i][j][k-1] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j][k+1] + u[m][i][j][k+2]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ][j][k+2]);
}
}
}
k = 2;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i][j][k-1] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j][k+1] + u[m][i][j][k+2]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
(-4.0*u[m][i][j][k-1] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j][k+1] + u[m][i][j][k+2]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ][i][j][k-1] + 6.0*u[m][i][j][k] -
4.0*u[m][i][j][k+1] + u[m][i][j][k+2]);
}
}
}
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 3*1; k <= grid_points[2]-3*1-1; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2] );
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | + u[m][i][j][k+2]);
}
}
}
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 3*1; k <= grid_points[2]-3*1-1; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 3*1; k <= grid_points[2]-3*1-1; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ints[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 3*1; k <= grid_points[2]-3*1-1; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 4.0*u[m][i][j][k+1] +
u[m][i][j][k+2] );
}
}
}
}
k = grid_points[2]-3;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | }
}
}
k = grid_points[2]-3;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | -1] +
6.0*u[m][i][j][k] - 4.0*u[m][i][j][k+1] );
}
}
}
k = grid_points[2]-2;
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
5.0*u[m][i][j][k] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | }
}
}
k = grid_points[2]-2;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
5.0*u[m][i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
rhs[m][i][j][k] = rhs[m][i][j][k] - dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
5.0*u[m][i][j][k] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | dssp *
( u[m][i][j][k-2] - 4.0*u[m][i][j][k-1] +
5.0*u[m][i][j][k] );
}
}
}
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] * dt;
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | .0*u[m][i][j][k] );
}
}
}
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] * dt;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] * dt;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ints[0]-2; i++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] * dt;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3) | 100 | ---*/
int i, j, k;
double t1, t2, t3, ac, ru1, uu, vv, ww, r1, r2, r3,
r4, r5, ac2inv;
<LOOP-START>for (i = 1; i <= grid_points[0]-2; i++) {
#pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)
for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)
for (k = 1; k <= grid_points[2]-2; k++) {
ru1 = rho_i[i][j][k];
uu = us[i][j][k];
vv = vs[i][j][k];
ww = ws[i][j][k];
ac = speed[i][j][k];
ac2inv = ainv[i][j][k]*ainv[i][j][k];
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = c2 * ac2inv * ( qs[i][j][k]*r1 - uu*r2 -
vv*r3 - ww*r4 + r5 );
t2 = bt * ru1 * ( uu * r1 - r2 );
t3 = ( bt * ru1 * ac ) * t1;
rhs[0][i][j][k] = r1 - t1;
rhs[1][i][j][k] = - ru1 * ( ww*r1 - r4 );
rhs[2][i][j][k] = ru1 * ( vv*r1 - r3 );
rhs[3][i][j][k] = - t2 + t3;
rhs[4][i][j][k] = t2 + t3;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3) | 100 | uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)
for (k = 1; k <= grid_points[2]-2; k++) {
ru1 = rho_i[i][j][k];
uu = us[i][j][k];
vv = vs[i][j][k];
ww = ws[i][j][k];
ac = speed[i][j][k];
ac2inv = ainv[i][j][k]*ainv[i][j][k];
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = c2 * ac2inv * ( qs[i][j][k]*r1 - uu*r2 -
vv*r3 - ww*r4 + r5 );
t2 = bt * ru1 * ( uu * r1 - r2 );
t3 = ( bt * ru1 * ac ) * t1;
rhs[0][i][j][k] = r1 - t1;
rhs[1][i][j][k] = - ru1 * ( ww*r1 - r4 );
rhs[2][i][j][k] = ru1 * ( vv*r1 - r3 );
rhs[3][i][j][k] = - t2 + t3;
rhs[4][i][j][k] = t2 + t3;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3) | 100 | , uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
ru1 = rho_i[i][j][k];
uu = us[i][j][k];
vv = vs[i][j][k];
ww = ws[i][j][k];
ac = speed[i][j][k];
ac2inv = ainv[i][j][k]*ainv[i][j][k];
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
t1 = c2 * ac2inv * ( qs[i][j][k]*r1 - uu*r2 -
vv*r3 - ww*r4 + r5 );
t2 = bt * ru1 * ( uu * r1 - r2 );
t3 = ( bt * ru1 * ac ) * t1;
rhs[0][i][j][k] = r1 - t1;
rhs[1][i][j][k] = - ru1 * ( ww*r1 - r4 );
rhs[2][i][j][k] = ru1 * ( vv*r1 - r3 );
rhs[3][i][j][k] = - t2 + t3;
rhs[4][i][j][k] = t2 + t3;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(ru1, uu, vv, ww, ac, ac2inv, r1 ,r2 ,r3 ,r4 ,t1 ,t2 ,t3)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(t1 ,t2 ,t3 ,ac ,xvel ,yvel ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 ) | 100 | vel ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 )
for (i = 1; i <= grid_points[0]-2; i++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(t1 ,t2 ,t3 ,ac ,xvel ,yvel ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 )
for (k = 1; k <= grid_points[2]-2; k++) {
xvel = us[i][j][k];
yvel = vs[i][j][k];
zvel = ws[i][j][k];
ac = speed[i][j][k];
acinv = ainv[i][j][k];
ac2u = ac*ac;
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
uzik1 = u[0][i][j][k];
btuz = bt * uzik1;
t1 = btuz*acinv * (r4 + r5);
t2 = r3 + t1;
t3 = btuz * (r4 - r5);
rhs[0][i][j][k] = t2;
rhs[1][i][j][k] = -uzik1*r2 + xvel*t2;
rhs[2][i][j][k] = uzik1*r1 + yvel*t2;
rhs[3][i][j][k] = zvel*t2 + t3;
rhs[4][i][j][k] = uzik1*(-xvel*r2 + yvel*r1) +
qs[i][j][k]*t2 + c2iv*ac2u*t1 + zvel*t3;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(t1 ,t2 ,t3 ,ac ,xvel ,yvel ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 )<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(t1 ,t2 ,t3 ,ac ,xvel ,yvel ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 ) | 100 | ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 )
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
xvel = us[i][j][k];
yvel = vs[i][j][k];
zvel = ws[i][j][k];
ac = speed[i][j][k];
acinv = ainv[i][j][k];
ac2u = ac*ac;
r1 = rhs[0][i][j][k];
r2 = rhs[1][i][j][k];
r3 = rhs[2][i][j][k];
r4 = rhs[3][i][j][k];
r5 = rhs[4][i][j][k];
uzik1 = u[0][i][j][k];
btuz = bt * uzik1;
t1 = btuz*acinv * (r4 + r5);
t2 = r3 + t1;
t3 = btuz * (r4 - r5);
rhs[0][i][j][k] = t2;
rhs[1][i][j][k] = -uzik1*r2 + xvel*t2;
rhs[2][i][j][k] = uzik1*r1 + yvel*t2;
rhs[3][i][j][k] = zvel*t2 + t3;
rhs[4][i][j][k] = uzik1*(-xvel*r2 + yvel*r1) +
qs[i][j][k]*t2 + c2iv*ac2u*t1 + zvel*t3;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(t1 ,t2 ,t3 ,ac ,xvel ,yvel ,zvel ,r1 ,r2 ,r3 ,r4 ,r5 ,btuz ,ac2u ,uzik1 )<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | ----------------------------------------*/
error_norm(xce);
compute_rhs();
rhs_norm(xcr);
<LOOP-START>for (m = 0; m < 5; m++) {
xcr[m] = xcr[m] / dt;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 |
for (m = 0; m < 5; m++) {
xcr[m] = xcr[m] / dt;
}
*class = 'U';
*verified = TRUE;
<LOOP-START>for (m = 0; m < 5; m++) {
xcrref[m] = 1.0;
xceref[m] = 1.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | he known reference values.
--------------------------------------------------------------------*/
<LOOP-START>for (m = 0; m < 5; m++) {
xcrdif[m] = fabs((xcr[m]-xcrref[m])/xcrref[m]) ;
xcedif[m] = fabs((xce[m]-xceref[m])/xceref[m]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(fac1, m) | 100 | ------*/
n = 0;
for (i = 0; i <= grid_points[0]-3; i++) {
i1 = i + 1;
i2 = i + 2;
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(fac1, m)
for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1./lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
}
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
}
lhs[n+1][i2][j][k] = lhs[n+1][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+3][i][j][k];
lhs[n+2][i2][j][k] = lhs[n+2][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i2][j][k] = rhs[m][i2][j][k] -
lhs[n+0][i2][j][k]*rhs[m][i][j][k];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(fac1, m) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(fac1, m) | 100 |
#pragma omp parallel for private(fac1, m)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1./lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
}
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
}
lhs[n+1][i2][j][k] = lhs[n+1][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+3][i][j][k];
lhs[n+2][i2][j][k] = lhs[n+2][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i2][j][k] = rhs[m][i2][j][k] -
lhs[n+0][i2][j][k]*rhs[m][i][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(fac1, m) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(m, fac1, fac2) | 100 | --------------------------------------------*/
i = grid_points[0]-2;
i1 = grid_points[0]-1;
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for private(m, fac1, fac2)
for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1.0/lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
}
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
}
/*--------------------------------------------------------------------
c scale the last row immediately
--------------------------------------------------------------------*/
fac2 = 1./lhs[n+2][i1][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i1][j][k] = fac2*rhs[m][i1][j][k];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(m, fac1, fac2) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(m, fac1, fac2) | 100 |
#pragma omp parallel for private(m, fac1, fac2)
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1.0/lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
}
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
}
/*--------------------------------------------------------------------
c scale the last row immediately
--------------------------------------------------------------------*/
fac2 = 1./lhs[n+2][i1][j][k];
for (m = 0; m < 3; m++) {
rhs[m][i1][j][k] = fac2*rhs[m][i1][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(m, fac1, fac2) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(n, i1, i2, fac1) | 100 | factors
--------------------------------------------------------------------*/
<LOOP-START>for (m = 3; m < 5; m++) {
n = (m-3+1)*5;
for (i = 0; i <= grid_points[0]-3; i++) {
i1 = i + 1;
i2 = i + 2;
#pragma omp parallel for private(n, i1, i2, fac1)
for (j = 1; j <= grid_points[1]-2; j++) {
for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1./lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
lhs[n+1][i2][j][k] = lhs[n+1][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+3][i][j][k];
lhs[n+2][i2][j][k] = lhs[n+2][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+4][i][j][k];
rhs[m][i2][j][k] = rhs[m][i2][j][k] -
lhs[n+0][i2][j][k]*rhs[m][i][j][k];
}
}
}
/*--------------------------------------------------------------------
c And again the last two rows separately
--------------------------------------------------------------------*/
i = grid_points[0]-2;
i1 = grid_points[0]-1;
#pragma omp parallel for private(fac1, fac2)
for (j = 1; j <= grid_points[1]-2; j++) {
for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1./lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
/*--------------------------------------------------------------------
c Scale the last row immediately
--------------------------------------------------------------------*/
fac2 = 1./lhs[n+2][i1][j][k];
rhs[m][i1][j][k] = fac2*rhs[m][i1][j][k];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(n, i1, i2, fac1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(n, i1, i2, fac1) | 100 | m-3+1)*5;
for (i = 0; i <= grid_points[0]-3; i++) {
i1 = i + 1;
i2 = i + 2;
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1./lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
lhs[n+1][i2][j][k] = lhs[n+1][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+3][i][j][k];
lhs[n+2][i2][j][k] = lhs[n+2][i2][j][k] -
lhs[n+0][i2][j][k]*lhs[n+4][i][j][k];
rhs[m][i2][j][k] = rhs[m][i2][j][k] -
lhs[n+0][i2][j][k]*rhs[m][i][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(n, i1, i2, fac1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for private(fac1, fac2) | 100 | ----------------------------------*/
i = grid_points[0]-2;
i1 = grid_points[0]-1;
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
for (k = 1; k <= grid_points[2]-2; k++) {
fac1 = 1./lhs[n+2][i][j][k];
lhs[n+3][i][j][k] = fac1*lhs[n+3][i][j][k];
lhs[n+4][i][j][k] = fac1*lhs[n+4][i][j][k];
rhs[m][i][j][k] = fac1*rhs[m][i][j][k];
lhs[n+2][i1][j][k] = lhs[n+2][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+3][i][j][k];
lhs[n+3][i1][j][k] = lhs[n+3][i1][j][k] -
lhs[n+1][i1][j][k]*lhs[n+4][i][j][k];
rhs[m][i1][j][k] = rhs[m][i1][j][k] -
lhs[n+1][i1][j][k]*rhs[m][i][j][k];
/*--------------------------------------------------------------------
c Scale the last row immediately
--------------------------------------------------------------------*/
fac2 = 1./lhs[n+2][i1][j][k];
rhs[m][i1][j][k] = fac2*rhs[m][i1][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(fac1, fac2)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | -----*/
i = grid_points[0]-2;
i1 = grid_points[0]-1;
n = 0;
for (m = 0; m < 3; m++) {
<LOOP-START>for (j = 1; j <= grid_points[1]-2; j++) {
#pragma omp parallel for
for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] -
lhs[n+3][i][j][k]*rhs[m][i1][j][k];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/SP/sp.c | #pragma omp parallel for | 100 | 0; m < 3; m++) {
#pragma omp parallel for
for (j = 1; j <= grid_points[1]-2; j++) {
<LOOP-START>for (k = 1; k <= grid_points[2]-2; k++) {
rhs[m][i][j][k] = rhs[m][i][j][k] -
lhs[n+3][i][j][k]*rhs[m][i1][j][k];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
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