filename stringlengths 19 182 | omp_pragma_line stringlengths 24 416 | context_chars int64 100 100 | text stringlengths 152 177k |
|---|---|---|---|
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m]- dssp *
( 5.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] +
u[i][j+2][k][m]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ( 5.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] +
u[i][j+2][k][m]);
}
}
}
j = 2;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
(-4.0*u[i][j-1][k][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j+1][k][m] + u[i][j+2][k][m]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | }
}
}
j = 2;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
(-4.0*u[i][j-1][k][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j+1][k][m] + u[i][j+2][k][m]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
(-4.0*u[i][j-1][k][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j+1][k][m] + u[i][j+2][k][m]);
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ][j-1][k][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j+1][k][m] + u[i][j+2][k][m]);
}
}
}
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 3; j < grid_points[1]-3; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] +
u[i][j+2][k][m] );
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | [m]);
}
}
}
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 3; j < grid_points[1]-3; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] +
u[i][j+2][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (j = 3; j < grid_points[1]-3; j++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] +
u[i][j+2][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | points[1]-3; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] +
u[i][j+2][k][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ][j+1][k][m] +
u[i][j+2][k][m] );
}
}
}
}
j = grid_points[1]-3;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 |
j = grid_points[1]-3;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.0*u[i][j-1][k][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | [m] +
6.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] );
}
}
}
j = grid_points[1]-2;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.*u[i][j-1][k][m] +
5.*u[i][j][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 |
j = grid_points[1]-2;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.*u[i][j-1][k][m] +
5.*u[i][j][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j-2][k][m] - 4.*u[i][j-1][k][m] +
5.*u[i][j][k][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for private(wijk, wp1, wm1) | 100 | ute zeta-direction fluxes
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for private(wijk, wp1, wm1)
for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for private(wijk, wp1, wm1)
for (k = 1; k < grid_points[2]-1; k++) {
wijk = ws[i][j][k];
wp1 = ws[i][j][k+1];
wm1 = ws[i][j][k-1];
rhs[i][j][k][0] = rhs[i][j][k][0] + dz1tz1 *
(u[i][j][k+1][0] - 2.0*u[i][j][k][0] +
u[i][j][k-1][0]) -
tz2 * (u[i][j][k+1][3] - u[i][j][k-1][3]);
rhs[i][j][k][1] = rhs[i][j][k][1] + dz2tz1 *
(u[i][j][k+1][1] - 2.0*u[i][j][k][1] +
u[i][j][k-1][1]) +
zzcon2 * (us[i][j][k+1] - 2.0*us[i][j][k] +
us[i][j][k-1]) -
tz2 * (u[i][j][k+1][1]*wp1 -
u[i][j][k-1][1]*wm1);
rhs[i][j][k][2] = rhs[i][j][k][2] + dz3tz1 *
(u[i][j][k+1][2] - 2.0*u[i][j][k][2] +
u[i][j][k-1][2]) +
zzcon2 * (vs[i][j][k+1] - 2.0*vs[i][j][k] +
vs[i][j][k-1]) -
tz2 * (u[i][j][k+1][2]*wp1 -
u[i][j][k-1][2]*wm1);
rhs[i][j][k][3] = rhs[i][j][k][3] + dz4tz1 *
(u[i][j][k+1][3] - 2.0*u[i][j][k][3] +
u[i][j][k-1][3]) +
zzcon2*con43 * (wp1 - 2.0*wijk + wm1) -
tz2 * (u[i][j][k+1][3]*wp1 -
u[i][j][k-1][3]*wm1 +
(u[i][j][k+1][4] - square[i][j][k+1] -
u[i][j][k-1][4] + square[i][j][k-1])
*c2);
rhs[i][j][k][4] = rhs[i][j][k][4] + dz5tz1 *
(u[i][j][k+1][4] - 2.0*u[i][j][k][4] +
u[i][j][k-1][4]) +
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[i][j][k+1][4]*rho_i[i][j][k+1] -
2.0*u[i][j][k][4]*rho_i[i][j][k] +
u[i][j][k-1][4]*rho_i[i][j][k-1]) -
tz2 * ( (c1*u[i][j][k+1][4] -
c2*square[i][j][k+1])*wp1 -
(c1*u[i][j][k-1][4] -
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/BT/bt.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]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for private(wijk, wp1, wm1)
for (k = 1; k < grid_points[2]-1; k++) {
wijk = ws[i][j][k];
wp1 = ws[i][j][k+1];
wm1 = ws[i][j][k-1];
rhs[i][j][k][0] = rhs[i][j][k][0] + dz1tz1 *
(u[i][j][k+1][0] - 2.0*u[i][j][k][0] +
u[i][j][k-1][0]) -
tz2 * (u[i][j][k+1][3] - u[i][j][k-1][3]);
rhs[i][j][k][1] = rhs[i][j][k][1] + dz2tz1 *
(u[i][j][k+1][1] - 2.0*u[i][j][k][1] +
u[i][j][k-1][1]) +
zzcon2 * (us[i][j][k+1] - 2.0*us[i][j][k] +
us[i][j][k-1]) -
tz2 * (u[i][j][k+1][1]*wp1 -
u[i][j][k-1][1]*wm1);
rhs[i][j][k][2] = rhs[i][j][k][2] + dz3tz1 *
(u[i][j][k+1][2] - 2.0*u[i][j][k][2] +
u[i][j][k-1][2]) +
zzcon2 * (vs[i][j][k+1] - 2.0*vs[i][j][k] +
vs[i][j][k-1]) -
tz2 * (u[i][j][k+1][2]*wp1 -
u[i][j][k-1][2]*wm1);
rhs[i][j][k][3] = rhs[i][j][k][3] + dz4tz1 *
(u[i][j][k+1][3] - 2.0*u[i][j][k][3] +
u[i][j][k-1][3]) +
zzcon2*con43 * (wp1 - 2.0*wijk + wm1) -
tz2 * (u[i][j][k+1][3]*wp1 -
u[i][j][k-1][3]*wm1 +
(u[i][j][k+1][4] - square[i][j][k+1] -
u[i][j][k-1][4] + square[i][j][k-1])
*c2);
rhs[i][j][k][4] = rhs[i][j][k][4] + dz5tz1 *
(u[i][j][k+1][4] - 2.0*u[i][j][k][4] +
u[i][j][k-1][4]) +
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[i][j][k+1][4]*rho_i[i][j][k+1] -
2.0*u[i][j][k][4]*rho_i[i][j][k] +
u[i][j][k-1][4]*rho_i[i][j][k-1]) -
tz2 * ( (c1*u[i][j][k+1][4] -
c2*square[i][j][k+1])*wp1 -
(c1*u[i][j][k-1][4] -
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/BT/bt.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]-1; j++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
wijk = ws[i][j][k];
wp1 = ws[i][j][k+1];
wm1 = ws[i][j][k-1];
rhs[i][j][k][0] = rhs[i][j][k][0] + dz1tz1 *
(u[i][j][k+1][0] - 2.0*u[i][j][k][0] +
u[i][j][k-1][0]) -
tz2 * (u[i][j][k+1][3] - u[i][j][k-1][3]);
rhs[i][j][k][1] = rhs[i][j][k][1] + dz2tz1 *
(u[i][j][k+1][1] - 2.0*u[i][j][k][1] +
u[i][j][k-1][1]) +
zzcon2 * (us[i][j][k+1] - 2.0*us[i][j][k] +
us[i][j][k-1]) -
tz2 * (u[i][j][k+1][1]*wp1 -
u[i][j][k-1][1]*wm1);
rhs[i][j][k][2] = rhs[i][j][k][2] + dz3tz1 *
(u[i][j][k+1][2] - 2.0*u[i][j][k][2] +
u[i][j][k-1][2]) +
zzcon2 * (vs[i][j][k+1] - 2.0*vs[i][j][k] +
vs[i][j][k-1]) -
tz2 * (u[i][j][k+1][2]*wp1 -
u[i][j][k-1][2]*wm1);
rhs[i][j][k][3] = rhs[i][j][k][3] + dz4tz1 *
(u[i][j][k+1][3] - 2.0*u[i][j][k][3] +
u[i][j][k-1][3]) +
zzcon2*con43 * (wp1 - 2.0*wijk + wm1) -
tz2 * (u[i][j][k+1][3]*wp1 -
u[i][j][k-1][3]*wm1 +
(u[i][j][k+1][4] - square[i][j][k+1] -
u[i][j][k-1][4] + square[i][j][k-1])
*c2);
rhs[i][j][k][4] = rhs[i][j][k][4] + dz5tz1 *
(u[i][j][k+1][4] - 2.0*u[i][j][k][4] +
u[i][j][k-1][4]) +
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[i][j][k+1][4]*rho_i[i][j][k+1] -
2.0*u[i][j][k][4]*rho_i[i][j][k] +
u[i][j][k-1][4]*rho_i[i][j][k-1]) -
tz2 * ( (c1*u[i][j][k+1][4] -
c2*square[i][j][k+1])*wp1 -
(c1*u[i][j][k-1][4] -
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/BT/bt.c | #pragma omp parallel for | 100 | n
c-------------------------------------------------------------------*/
k = 1;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m]- dssp *
( 5.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | -------------*/
k = 1;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m]- dssp *
( 5.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m]- dssp *
( 5.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m]);
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ( 5.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m]);
}
}
}
k = 2;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
(-4.0*u[i][j][k-1][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j][k+1][m] + u[i][j][k+2][m]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | }
}
}
k = 2;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
(-4.0*u[i][j][k-1][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j][k+1][m] + u[i][j][k+2][m]);
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
(-4.0*u[i][j][k-1][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j][k+1][m] + u[i][j][k+2][m]);
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ][j][k-1][m] + 6.0*u[i][j][k][m] -
4.0*u[i][j][k+1][m] + u[i][j][k+2][m]);
}
}
}
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 3; k < grid_points[2]-3; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m] );
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | [m]);
}
}
}
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 3; k < grid_points[2]-3; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (k = 3; k < grid_points[2]-3; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | points[1]-1; j++) {
#pragma omp parallel for
for (k = 3; k < grid_points[2]-3; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] +
u[i][j][k+2][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ][j][k+1][m] +
u[i][j][k+2][m] );
}
}
}
}
k = grid_points[2]-3;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 |
k = grid_points[2]-3;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | [m] +
6.0*u[i][j][k][m] - 4.0*u[i][j][k+1][m] );
}
}
}
k = grid_points[2]-2;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
5.0*u[i][j][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 |
k = grid_points[2]-2;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
5.0*u[i][j][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rhs[i][j][k][m] = rhs[i][j][k][m] - dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
5.0*u[i][j][k][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | dssp *
( u[i][j][k-2][m] - 4.0*u[i][j][k-1][m] +
5.0*u[i][j][k][m] );
}
}
}
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
rhs[i][j][k][m] = rhs[i][j][k][m] * dt;
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ] );
}
}
}
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
rhs[i][j][k][m] = rhs[i][j][k][m] * dt;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | oints[1]-1; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
rhs[i][j][k][m] = rhs[i][j][k][m] * dt;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
rhs[i][j][k][m] = rhs[i][j][k][m] * dt;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.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/BT/bt.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/BT/bt.c | #pragma omp parallel for | 100 | he known reference values.
c-------------------------------------------------------------------*/
<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/BT/bt.c | #pragma omp parallel for | 100 | --------------------------*/
int i, j, k, m, n;
for (i = grid_points[0]-2; i >= 0; i--) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i+1][j][k][n];
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | 2; i >= 0; i--) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i+1][j][k][n];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | points[1]-1; j++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i+1][j][k][n];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | - sweeping in i direction
c-------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
for (k = 1; k < grid_points[2]-1; k++) {
/*--------------------------------------------------------------------
c multiply c(0,j,k) by b_inverse and copy back to c
c multiply rhs(0) by b_inverse(0) and copy to rhs
c-------------------------------------------------------------------*/
binvcrhs( lhs[0][j][k][BB],
lhs[0][j][k][CC],
rhs[0][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | -------------------------------------------------------------*/
for (i = 1; i < isize; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
for (k = 1; k < grid_points[2]-1; k++) {
/*--------------------------------------------------------------------
c rhs(i) = rhs(i) - A*rhs(i-1)
c-------------------------------------------------------------------*/
matvec_sub(lhs[i][j][k][AA],
rhs[i-1][j][k], rhs[i][j][k]);
/*--------------------------------------------------------------------
c B(i) = B(i) - C(i-1)*A(i)
c-------------------------------------------------------------------*/
matmul_sub(lhs[i][j][k][AA],
lhs[i-1][j][k][CC],
lhs[i][j][k][BB]);
/*--------------------------------------------------------------------
c multiply c(i,j,k) by b_inverse and copy back to c
c multiply rhs(1,j,k) by b_inverse(1,j,k) and copy to rhs
c-------------------------------------------------------------------*/
binvcrhs( lhs[i][j][k][BB],
lhs[i][j][k][CC],
rhs[i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ----*/
binvcrhs( lhs[i][j][k][BB],
lhs[i][j][k][CC],
rhs[i][j][k] );
}
}
}
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
for (k = 1; k < grid_points[2]-1; k++) {
/*--------------------------------------------------------------------
c rhs(isize) = rhs(isize) - A*rhs(isize-1)
c-------------------------------------------------------------------*/
matvec_sub(lhs[isize][j][k][AA],
rhs[isize-1][j][k], rhs[isize][j][k]);
/*--------------------------------------------------------------------
c B(isize) = B(isize) - C(isize-1)*A(isize)
c-------------------------------------------------------------------*/
matmul_sub(lhs[isize][j][k][AA],
lhs[isize-1][j][k][CC],
lhs[isize][j][k][BB]);
/*--------------------------------------------------------------------
c multiply rhs() by b_inverse() and copy to rhs
c-------------------------------------------------------------------*/
binvrhs( lhs[i][j][k][BB],
rhs[i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | --------------------*/
int i, j, k, m, n;
for (j = grid_points[1]-2; j >= 0; j--) {
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i][j+1][k][n];
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | -2; j >= 0; j--) {
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (k = 1; k < grid_points[2]-1; k++) {
#pragma omp parallel for
for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i][j+1][k][n];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | points[0]-1; i++) {
#pragma omp parallel for
for (k = 1; k < grid_points[2]-1; k++) {
<LOOP-START>for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i][j+1][k][n];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ------------------------------------------*/
int i, j, k, jsize;
jsize = grid_points[1]-1;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
for (k = 1; k < grid_points[2]-1; k++) {
/*--------------------------------------------------------------------
c multiply c(i,0,k) by b_inverse and copy back to c
c multiply rhs(0) by b_inverse(0) and copy to rhs
c-------------------------------------------------------------------*/
binvcrhs( lhs[i][0][k][BB],
lhs[i][0][k][CC],
rhs[i][0][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | -------------------------------------------------------------*/
for (j = 1; j < jsize; j++) {
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
for (k = 1; k < grid_points[2]-1; k++) {
/*--------------------------------------------------------------------
c subtract A*lhs_vector(j-1) from lhs_vector(j)
c
c rhs(j) = rhs(j) - A*rhs(j-1)
c-------------------------------------------------------------------*/
matvec_sub(lhs[i][j][k][AA],
rhs[i][j-1][k], rhs[i][j][k]);
/*--------------------------------------------------------------------
c B(j) = B(j) - C(j-1)*A(j)
c-------------------------------------------------------------------*/
matmul_sub(lhs[i][j][k][AA],
lhs[i][j-1][k][CC],
lhs[i][j][k][BB]);
/*--------------------------------------------------------------------
c multiply c(i,j,k) by b_inverse and copy back to c
c multiply rhs(i,1,k) by b_inverse(i,1,k) and copy to rhs
c-------------------------------------------------------------------*/
binvcrhs( lhs[i][j][k][BB],
lhs[i][j][k][CC],
rhs[i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ----*/
binvcrhs( lhs[i][j][k][BB],
lhs[i][j][k][CC],
rhs[i][j][k] );
}
}
}
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
for (k = 1; k < grid_points[2]-1; k++) {
/*--------------------------------------------------------------------
c rhs(jsize) = rhs(jsize) - A*rhs(jsize-1)
c-------------------------------------------------------------------*/
matvec_sub(lhs[i][jsize][k][AA],
rhs[i][jsize-1][k], rhs[i][jsize][k]);
/*--------------------------------------------------------------------
c B(jsize) = B(jsize) - C(jsize-1)*A(jsize)
c call matmul_sub(aa,i,jsize,k,c,
c $ cc,i,jsize-1,k,c,BB,i,jsize,k)
c-------------------------------------------------------------------*/
matmul_sub(lhs[i][jsize][k][AA],
lhs[i][jsize-1][k][CC],
lhs[i][jsize][k][BB]);
/*--------------------------------------------------------------------
c multiply rhs(jsize) by b_inverse(jsize) and copy to rhs
c-------------------------------------------------------------------*/
binvrhs( lhs[i][jsize][k][BB],
rhs[i][jsize][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | ell
c-------------------------------------------------------------------*/
int i, j, k, m, n;
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
#pragma omp parallel for
for (j = 1; j < grid_points[1]-1; j++) {
for (k = grid_points[2]-2; k >= 0; k--) {
for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i][j][k+1][n];
}
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | /
int i, j, k, m, n;
#pragma omp parallel for
for (i = 1; i < grid_points[0]-1; i++) {
<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) {
for (k = grid_points[2]-2; k >= 0; k--) {
for (m = 0; m < BLOCK_SIZE; m++) {
for (n = 0; n < BLOCK_SIZE; n++) {
rhs[i][j][k][m] = rhs[i][j][k][m]
- lhs[i][j][k][CC][m][n]*rhs[i][j][k+1][n];
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | - sweeping in i direction
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
for (j = 1; j < grid_points[1]-1; j++) {
/*--------------------------------------------------------------------
c multiply c(i,j,0) by b_inverse and copy back to c
c multiply rhs(0) by b_inverse(0) and copy to rhs
c-------------------------------------------------------------------*/
binvcrhs( lhs[i][j][0][BB],
lhs[i][j][0][CC],
rhs[i][j][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | -----------------------------------------------------------*/
for (k = 1; k < ksize; k++) {
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
for (j = 1; j < grid_points[1]-1; j++) {
/*--------------------------------------------------------------------
c subtract A*lhs_vector(k-1) from lhs_vector(k)
c
c rhs(k) = rhs(k) - A*rhs(k-1)
c-------------------------------------------------------------------*/
matvec_sub(lhs[i][j][k][AA],
rhs[i][j][k-1], rhs[i][j][k]);
/*--------------------------------------------------------------------
c B(k) = B(k) - C(k-1)*A(k)
c call matmul_sub(aa,i,j,k,c,cc,i,j,k-1,c,BB,i,j,k)
c-------------------------------------------------------------------*/
matmul_sub(lhs[i][j][k][AA],
lhs[i][j][k-1][CC],
lhs[i][j][k][BB]);
/*--------------------------------------------------------------------
c multiply c(i,j,k) by b_inverse and copy back to c
c multiply rhs(i,j,1) by b_inverse(i,j,1) and copy to rhs
c-------------------------------------------------------------------*/
binvcrhs( lhs[i][j][k][BB],
lhs[i][j][k][CC],
rhs[i][j][k] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c | #pragma omp parallel for | 100 | pecial cases for last cell
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) {
for (j = 1; j < grid_points[1]-1; j++) {
/*--------------------------------------------------------------------
c rhs(ksize) = rhs(ksize) - A*rhs(ksize-1)
c-------------------------------------------------------------------*/
matvec_sub(lhs[i][j][ksize][AA],
rhs[i][j][ksize-1], rhs[i][j][ksize]);
/*--------------------------------------------------------------------
c B(ksize) = B(ksize) - C(ksize-1)*A(ksize)
c call matmul_sub(aa,i,j,ksize,c,
c $ cc,i,j,ksize-1,c,BB,i,j,ksize)
c-------------------------------------------------------------------*/
matmul_sub(lhs[i][j][ksize][AA],
lhs[i][j][ksize-1][CC],
lhs[i][j][ksize][BB]);
/*--------------------------------------------------------------------
c multiply rhs(ksize) by b_inverse(ksize) and copy to rhs
c-------------------------------------------------------------------*/
binvrhs( lhs[i][j][ksize][BB],
rhs[i][j][ksize] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | lastcol-firstcol+1)
c---------------------------------------------------------------------*/
{
<LOOP-START>for (j = 1; j <= lastrow - firstrow + 1; j++) {
#pragma omp parallel for
for (k = rowstr[j]; k < rowstr[j+1]; k++) {
colidx[k] = colidx[k] - firstcol + 1;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | ------------*/
{
#pragma omp parallel for
for (j = 1; j <= lastrow - firstrow + 1; j++) {
<LOOP-START>for (k = rowstr[j]; k < rowstr[j+1]; k++) {
colidx[k] = colidx[k] - firstcol + 1;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | vector to (1, 1, .... 1)
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i <= NA+1; i++) {
x[i] = 1.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | -------*/
#pragma omp parallel for
for (i = 1; i <= NA+1; i++) {
x[i] = 1.0;
}
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
q[j] = 0.0;
z[j] = 0.0;
r[j] = 0.0;
p[j] = 0.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for reduction(+:norm_temp11) reduction(+:norm_temp12) | 100 | -------------------------------------------------*/
norm_temp11 = 0.0;
norm_temp12 = 0.0;
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
norm_temp11 = norm_temp11 + x[j]*z[j];
norm_temp12 = norm_temp12 + z[j]*z[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:norm_temp11) reduction(+:norm_temp12)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | lize the CG algorithm:
c-------------------------------------------------------------------*/
{
<LOOP-START>for (j = 1; j <= naa+1; j++) {
q[j] = 0.0;
z[j] = 0.0;
r[j] = x[j];
p[j] = r[j];
//w[j] = 0.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for reduction(+:rho) | 100 | of r elements locally...
c-------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
rho = rho + r[j]*r[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:rho) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for private(sum) | 100 | C on the Cray t3d - overall speed of code is 1.5 times faster.
*/
/* rolled version */
<LOOP-START>for (j = 1; j <= lastrow-firstrow+1; j++) {
sum = 0.0;
for (k = rowstr[j]; k < rowstr[j+1]; k++) {
sum = sum + a[k]*p[colidx[k]];
}
//w[j] = sum;
q[j] = sum;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(sum) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for reduction(+:d) | 100 | -------------
c Obtain p.q
c-------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
d = d + p[j]*q[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:d) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for reduction(+:rho) | 100 | c and r = r - alpha*q
c---------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
z[j] = z[j] + alpha*p[j];
r[j] = r[j] - alpha*q[j];
// }<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:rho) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | ---------
c p = r + beta*p
c-------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
p[j] = r[j] + beta*p[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for private(d) | 100 |
c---------------------------------------------------------------------*/
sum = 0.0;
{
<LOOP-START>for (j = 1; j <= lastrow-firstrow+1; j++) {
d = 0.0;
for (k = rowstr[j]; k <= rowstr[j+1]-1; k++) {
d = d + a[k]*z[colidx[k]];
}
r[j] = d;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(d) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for private(d) reduction(+:sum) | 100 | is point, r contains A.z
c-------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j <= lastcol-firstcol+1; j++) {
d = x[j] - r[j];
sum = sum + d*d;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(d) reduction(+:sum) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | mark nonzero positions
c---------------------------------------------------------------------*/
<LOOP-START>for (i = 1; i <= n; i++) {
colidx[n+i] = 0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | r of triples in each row
c-------------------------------------------------------------------*/
<LOOP-START>for (j = 1; j <= n; j++) {
rowstr[j] = 0;
mark[j] = FALSE;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | . preload data pages
c---------------------------------------------------------------------*/
<LOOP-START>for(j = 0;j <= nrows-1;j++) {
#pragma omp parallel for firstprivate(j)
for(k = rowstr[j];k <= rowstr[j+1]-1;k++)
a[k] = 0.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for firstprivate(j) | 100 | -------------------*/
#pragma omp parallel for
for(j = 0;j <= nrows-1;j++) {
<LOOP-START>for(k = rowstr[j];k <= rowstr[j+1]-1;k++)
a[k] = 0.0;
}
/*--------------------------------------------------------------------
c ... do a bucket sort of the triples on the row index
c-------------------------------------------------------------------*/
for (nza = 1; nza <= nnza; nza++) {
j = arow[nza] - firstrow + 1;
k = rowstr[j];
a[k] = aelt[nza];
colidx[k] = acol[nza];
rowstr[j] = rowstr[j] + 1;
}<LOOP-END> <OMP-START>#pragma omp parallel for firstprivate(j) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/CG/cg.c | #pragma omp parallel for | 100 | ng elements
c-------------------------------------------------------------------*/
nza = 0;
<LOOP-START>for (i = 1; i <= n; i++) {
x[i] = 0.0;
mark[i] = FALSE;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | --------------------------------------*/
int i, j, m;
double tmp, tmp1;
double tmat[5][5];
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
v[i][j][k][m] = v[i][j][k][m]
- omega * ( ldz[i][j][m][0] * v[i][j][k-1][0]
+ ldz[i][j][m][1] * v[i][j][k-1][1]
+ ldz[i][j][m][2] * v[i][j][k-1][2]
+ ldz[i][j][m][3] * v[i][j][k-1][3]
+ ldz[i][j][m][4] * v[i][j][k-1][4] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | tmp, tmp1;
double tmat[5][5];
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
v[i][j][k][m] = v[i][j][k][m]
- omega * ( ldz[i][j][m][0] * v[i][j][k-1][0]
+ ldz[i][j][m][1] * v[i][j][k-1][1]
+ ldz[i][j][m][2] * v[i][j][k-1][2]
+ ldz[i][j][m][3] * v[i][j][k-1][3]
+ ldz[i][j][m][4] * v[i][j][k-1][4] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | i = ist; i <= iend; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
v[i][j][k][m] = v[i][j][k][m]
- omega * ( ldz[i][j][m][0] * v[i][j][k-1][0]
+ ldz[i][j][m][1] * v[i][j][k-1][1]
+ ldz[i][j][m][2] * v[i][j][k-1][2]
+ ldz[i][j][m][3] * v[i][j][k-1][3]
+ ldz[i][j][m][4] * v[i][j][k-1][4] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | --------------------------------------*/
int i, j, m;
double tmp, tmp1;
double tmat[5][5];
<LOOP-START>for (i = iend; i >= ist; i--) {
#pragma omp parallel for
for (j = jend; j >= jst; j--) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
tv[i][j][m] =
omega * ( udz[i][j][m][0] * v[i][j][k+1][0]
+ udz[i][j][m][1] * v[i][j][k+1][1]
+ udz[i][j][m][2] * v[i][j][k+1][2]
+ udz[i][j][m][3] * v[i][j][k+1][3]
+ udz[i][j][m][4] * v[i][j][k+1][4] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | tmp, tmp1;
double tmat[5][5];
#pragma omp parallel for
for (i = iend; i >= ist; i--) {
<LOOP-START>for (j = jend; j >= jst; j--) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
tv[i][j][m] =
omega * ( udz[i][j][m][0] * v[i][j][k+1][0]
+ udz[i][j][m][1] * v[i][j][k+1][1]
+ udz[i][j][m][2] * v[i][j][k+1][2]
+ udz[i][j][m][3] * v[i][j][k+1][3]
+ udz[i][j][m][4] * v[i][j][k+1][4] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | i = iend; i >= ist; i--) {
#pragma omp parallel for
for (j = jend; j >= jst; j--) {
<LOOP-START>for (m = 0; m < 5; m++) {
tv[i][j][m] =
omega * ( udz[i][j][m][0] * v[i][j][k+1][0]
+ udz[i][j][m][1] * v[i][j][k+1][1]
+ udz[i][j][m][2] * v[i][j][k+1][2]
+ udz[i][j][m][3] * v[i][j][k+1][3]
+ udz[i][j][m][4] * v[i][j][k+1][4] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | uble u21jm1, u31jm1, u41jm1, u51jm1;
double u21km1, u31km1, u41km1, u51km1;
dsspm = dssp;
<LOOP-START>for (i = 0; i < nx; i++) {
#pragma omp parallel for
for (j = 0; j < ny; j++) {
#pragma omp parallel for
for (k = 0; k < nz; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = 0.0;
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | km1, u41km1, u51km1;
dsspm = dssp;
#pragma omp parallel for
for (i = 0; i < nx; i++) {
<LOOP-START>for (j = 0; j < ny; j++) {
#pragma omp parallel for
for (k = 0; k < nz; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = 0.0;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | or
for (i = 0; i < nx; i++) {
#pragma omp parallel for
for (j = 0; j < ny; j++) {
<LOOP-START>for (k = 0; k < nz; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = 0.0;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 |
for (j = 0; j < ny; j++) {
#pragma omp parallel for
for (k = 0; k < nz; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
frct[i][j][k][m] = 0.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(iglob, xi) | 100 | gma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = 0.0;
}
}
}
}
<LOOP-START>for (i = 0; i < nx; i++) {
iglob = i;
xi = ( (double)(iglob) ) / ( nx0 - 1 );
#pragma omp parallel for private(jglob, eta)
for (j = 0; j < ny; j++) {
jglob = j;
eta = ( (double)(jglob) ) / ( ny0 - 1 );
#pragma omp parallel for private(zeta)
for (k = 0; k < nz; k++) {
zeta = ( (double)(k) ) / ( nz - 1 );
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = ce[m][0]
+ ce[m][1] * xi
+ ce[m][2] * eta
+ ce[m][3] * zeta
+ ce[m][4] * xi * xi
+ ce[m][5] * eta * eta
+ ce[m][6] * zeta * zeta
+ ce[m][7] * xi * xi * xi
+ ce[m][8] * eta * eta * eta
+ ce[m][9] * zeta * zeta * zeta
+ ce[m][10] * xi * xi * xi * xi
+ ce[m][11] * eta * eta * eta * eta
+ ce[m][12] * zeta * zeta * zeta * zeta;
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob, xi)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(jglob, eta) | 100 | ob, xi)
for (i = 0; i < nx; i++) {
iglob = i;
xi = ( (double)(iglob) ) / ( nx0 - 1 );
<LOOP-START>for (j = 0; j < ny; j++) {
jglob = j;
eta = ( (double)(jglob) ) / ( ny0 - 1 );
#pragma omp parallel for private(zeta)
for (k = 0; k < nz; k++) {
zeta = ( (double)(k) ) / ( nz - 1 );
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = ce[m][0]
+ ce[m][1] * xi
+ ce[m][2] * eta
+ ce[m][3] * zeta
+ ce[m][4] * xi * xi
+ ce[m][5] * eta * eta
+ ce[m][6] * zeta * zeta
+ ce[m][7] * xi * xi * xi
+ ce[m][8] * eta * eta * eta
+ ce[m][9] * zeta * zeta * zeta
+ ce[m][10] * xi * xi * xi * xi
+ ce[m][11] * eta * eta * eta * eta
+ ce[m][12] * zeta * zeta * zeta * zeta;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(jglob, eta) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(zeta) | 100 | for (j = 0; j < ny; j++) {
jglob = j;
eta = ( (double)(jglob) ) / ( ny0 - 1 );
<LOOP-START>for (k = 0; k < nz; k++) {
zeta = ( (double)(k) ) / ( nz - 1 );
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = ce[m][0]
+ ce[m][1] * xi
+ ce[m][2] * eta
+ ce[m][3] * zeta
+ ce[m][4] * xi * xi
+ ce[m][5] * eta * eta
+ ce[m][6] * zeta * zeta
+ ce[m][7] * xi * xi * xi
+ ce[m][8] * eta * eta * eta
+ ce[m][9] * zeta * zeta * zeta
+ ce[m][10] * xi * xi * xi * xi
+ ce[m][11] * eta * eta * eta * eta
+ ce[m][12] * zeta * zeta * zeta * zeta;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(zeta) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | s
--------------------------------------------------------------------*/
L1 = 0;
L2 = nx-1;
<LOOP-START>for (i = L1; i <= L2; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for private(u21, q)
for (k = 1; k < nz - 1; k++) {
flux[i][j][k][0] = rsd[i][j][k][1];
u21 = rsd[i][j][k][1] / rsd[i][j][k][0];
q = 0.50 * ( rsd[i][j][k][1] * rsd[i][j][k][1]
+ rsd[i][j][k][2] * rsd[i][j][k][2]
+ rsd[i][j][k][3] * rsd[i][j][k][3] )
/ rsd[i][j][k][0];
flux[i][j][k][1] = rsd[i][j][k][1] * u21 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][2] = rsd[i][j][k][2] * u21;
flux[i][j][k][3] = rsd[i][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u21;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | ---------*/
L1 = 0;
L2 = nx-1;
#pragma omp parallel for
for (i = L1; i <= L2; i++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for private(u21, q)
for (k = 1; k < nz - 1; k++) {
flux[i][j][k][0] = rsd[i][j][k][1];
u21 = rsd[i][j][k][1] / rsd[i][j][k][0];
q = 0.50 * ( rsd[i][j][k][1] * rsd[i][j][k][1]
+ rsd[i][j][k][2] * rsd[i][j][k][2]
+ rsd[i][j][k][3] * rsd[i][j][k][3] )
/ rsd[i][j][k][0];
flux[i][j][k][1] = rsd[i][j][k][1] * u21 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][2] = rsd[i][j][k][2] * u21;
flux[i][j][k][3] = rsd[i][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u21;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(u21, q) | 100 | r (i = L1; i <= L2; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k < nz - 1; k++) {
flux[i][j][k][0] = rsd[i][j][k][1];
u21 = rsd[i][j][k][1] / rsd[i][j][k][0];
q = 0.50 * ( rsd[i][j][k][1] * rsd[i][j][k][1]
+ rsd[i][j][k][2] * rsd[i][j][k][2]
+ rsd[i][j][k][3] * rsd[i][j][k][3] )
/ rsd[i][j][k][0];
flux[i][j][k][1] = rsd[i][j][k][1] * u21 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][2] = rsd[i][j][k][2] * u21;
flux[i][j][k][3] = rsd[i][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u21;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u21, q) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist) | 100 | ][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u21;
}
}
}
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)
for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1) firstprivate(ist)
for (i = ist; i <= L2; i++) {
tmp = 1.0 / rsd[i][j][k][0];
u21i = tmp * rsd[i][j][k][1];
u31i = tmp * rsd[i][j][k][2];
u41i = tmp * rsd[i][j][k][3];
u51i = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i-1][j][k][0];
u21im1 = tmp * rsd[i-1][j][k][1];
u31im1 = tmp * rsd[i-1][j][k][2];
u41im1 = tmp * rsd[i-1][j][k][3];
u51im1 = tmp * rsd[i-1][j][k][4];
flux[i][j][k][1] = (4.0/3.0) * tx3 *
( u21i - u21im1 );
flux[i][j][k][2] = tx3 * ( u31i - u31im1 );
flux[i][j][k][3] = tx3 * ( u41i - u41im1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tx3 * ( ( u21i * u21i + u31i * u31i + u41i * u41i )
- ( u21im1*u21im1 + u31im1*u31im1 + u41im1*u41im1 ) )
+ (1.0/6.0)
* tx3 * ( u21i*u21i - u21im1*u21im1 )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dx1 * tx1 * ( rsd[i-1][j][k][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i+1][j][k][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][1] - flux[i][j][k][1] )
+ dx2 * tx1 * ( rsd[i-1][j][k][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i+1][j][k][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][2] - flux[i][j][k][2] )
+ dx3 * tx1 * ( rsd[i-1][j][k][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i+1][j][k][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][3] - flux[i][j][k][3] )
+ dx4 * tx1 * ( rsd[i-1][j][k][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i+1][j][k][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][4] - flux[i][j][k][4] )
+ dx5 * tx1 * ( rsd[i-1][j][k][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i+1][j][k][4] );
}
/*--------------------------------------------------------------------
c Fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
frct[1][j][k][m] = frct[1][j][k][m]
- dsspm * ( + 5.0 * rsd[1][j][k][m]
- 4.0 * rsd[2][j][k][m]
+ rsd[3][j][k][m] );
frct[2][j][k][m] = frct[2][j][k][m]
- dsspm * ( - 4.0 * rsd[1][j][k][m]
+ 6.0 * rsd[2][j][k][m]
- 4.0 * rsd[3][j][k][m]
+ rsd[4][j][k][m] );
}
ist1 = 3;
iend1 = nx - 4;
for (i = ist1; i <=iend1; i++) {
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- dsspm * ( rsd[i-2][j][k][m]
- 4.0 * rsd[i-1][j][k][m]
+ 6.0 * rsd[i][j][k][m]
- 4.0 * rsd[i+1][j][k][m]
+ rsd[i+2][j][k][m] );
}
}
for (m = 0; m < 5; m++) {
frct[nx-3][j][k][m] = frct[nx-3][j][k][m]
- dsspm * ( rsd[nx-5][j][k][m]
- 4.0 * rsd[nx-4][j][k][m]
+ 6.0 * rsd[nx-3][j][k][m]
- 4.0 * rsd[nx-2][j][k][m] );
frct[nx-2][j][k][m] = frct[nx-2][j][k][m]
- dsspm * ( rsd[nx-4][j][k][m]
- 4.0 * rsd[nx-3][j][k][m]
+ 5.0 * rsd[nx-2][j][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist) | 100 | m1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)
for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1) firstprivate(ist)
for (i = ist; i <= L2; i++) {
tmp = 1.0 / rsd[i][j][k][0];
u21i = tmp * rsd[i][j][k][1];
u31i = tmp * rsd[i][j][k][2];
u41i = tmp * rsd[i][j][k][3];
u51i = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i-1][j][k][0];
u21im1 = tmp * rsd[i-1][j][k][1];
u31im1 = tmp * rsd[i-1][j][k][2];
u41im1 = tmp * rsd[i-1][j][k][3];
u51im1 = tmp * rsd[i-1][j][k][4];
flux[i][j][k][1] = (4.0/3.0) * tx3 *
( u21i - u21im1 );
flux[i][j][k][2] = tx3 * ( u31i - u31im1 );
flux[i][j][k][3] = tx3 * ( u41i - u41im1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tx3 * ( ( u21i * u21i + u31i * u31i + u41i * u41i )
- ( u21im1*u21im1 + u31im1*u31im1 + u41im1*u41im1 ) )
+ (1.0/6.0)
* tx3 * ( u21i*u21i - u21im1*u21im1 )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dx1 * tx1 * ( rsd[i-1][j][k][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i+1][j][k][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][1] - flux[i][j][k][1] )
+ dx2 * tx1 * ( rsd[i-1][j][k][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i+1][j][k][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][2] - flux[i][j][k][2] )
+ dx3 * tx1 * ( rsd[i-1][j][k][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i+1][j][k][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][3] - flux[i][j][k][3] )
+ dx4 * tx1 * ( rsd[i-1][j][k][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i+1][j][k][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][4] - flux[i][j][k][4] )
+ dx5 * tx1 * ( rsd[i-1][j][k][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i+1][j][k][4] );
}
/*--------------------------------------------------------------------
c Fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
frct[1][j][k][m] = frct[1][j][k][m]
- dsspm * ( + 5.0 * rsd[1][j][k][m]
- 4.0 * rsd[2][j][k][m]
+ rsd[3][j][k][m] );
frct[2][j][k][m] = frct[2][j][k][m]
- dsspm * ( - 4.0 * rsd[1][j][k][m]
+ 6.0 * rsd[2][j][k][m]
- 4.0 * rsd[3][j][k][m]
+ rsd[4][j][k][m] );
}
ist1 = 3;
iend1 = nx - 4;
for (i = ist1; i <=iend1; i++) {
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- dsspm * ( rsd[i-2][j][k][m]
- 4.0 * rsd[i-1][j][k][m]
+ 6.0 * rsd[i][j][k][m]
- 4.0 * rsd[i+1][j][k][m]
+ rsd[i+2][j][k][m] );
}
}
for (m = 0; m < 5; m++) {
frct[nx-3][j][k][m] = frct[nx-3][j][k][m]
- dsspm * ( rsd[nx-5][j][k][m]
- 4.0 * rsd[nx-4][j][k][m]
+ 6.0 * rsd[nx-3][j][k][m]
- 4.0 * rsd[nx-2][j][k][m] );
frct[nx-2][j][k][m] = frct[nx-2][j][k][m]
- dsspm * ( rsd[nx-4][j][k][m]
- 4.0 * rsd[nx-3][j][k][m]
+ 5.0 * rsd[nx-2][j][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist) | 100 | u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)
for (k = 1; k <= nz - 2; k++) {
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | 1, u41im1, u51im1, i, ist1, iend1, m) firstprivate(jst, ist)
for (i = ist; i <= iend; i++) {
<LOOP-START>for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1) firstprivate(ist) | 100 | ][m] = frct[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}
<LOOP-START>for (i = ist; i <= L2; i++) {
tmp = 1.0 / rsd[i][j][k][0];
u21i = tmp * rsd[i][j][k][1];
u31i = tmp * rsd[i][j][k][2];
u41i = tmp * rsd[i][j][k][3];
u51i = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i-1][j][k][0];
u21im1 = tmp * rsd[i-1][j][k][1];
u31im1 = tmp * rsd[i-1][j][k][2];
u41im1 = tmp * rsd[i-1][j][k][3];
u51im1 = tmp * rsd[i-1][j][k][4];
flux[i][j][k][1] = (4.0/3.0) * tx3 *
( u21i - u21im1 );
flux[i][j][k][2] = tx3 * ( u31i - u31im1 );
flux[i][j][k][3] = tx3 * ( u41i - u41im1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tx3 * ( ( u21i * u21i + u31i * u31i + u41i * u41i )
- ( u21im1*u21im1 + u31im1*u31im1 + u41im1*u41im1 ) )
+ (1.0/6.0)
* tx3 * ( u21i*u21i - u21im1*u21im1 )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1) firstprivate(ist)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | .0)
* tx3 * ( u21i*u21i - u21im1*u21im1 )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}
<LOOP-START>for (i = ist; i <= iend; i++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dx1 * tx1 * ( rsd[i-1][j][k][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i+1][j][k][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][1] - flux[i][j][k][1] )
+ dx2 * tx1 * ( rsd[i-1][j][k][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i+1][j][k][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][2] - flux[i][j][k][2] )
+ dx3 * tx1 * ( rsd[i-1][j][k][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i+1][j][k][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][3] - flux[i][j][k][3] )
+ dx4 * tx1 * ( rsd[i-1][j][k][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i+1][j][k][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][4] - flux[i][j][k][4] )
+ dx5 * tx1 * ( rsd[i-1][j][k][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i+1][j][k][4] );
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(u31, q) | 100 | s
--------------------------------------------------------------------*/
L1 = 0;
L2 = ny-1;
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for private(u31, q)
//firstprivate(iend ,ist ,k ,ny ,u31 ,q ,nz ,L2 ,i )
for (j = L1; j <= L2; j++) {
#pragma omp parallel for private(u31, q)
for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = rsd[i][j][k][2];
u31 = rsd[i][j][k][2] / rsd[i][j][k][0];
q = 0.50 * ( rsd[i][j][k][1] * rsd[i][j][k][1]
+ rsd[i][j][k][2] * rsd[i][j][k][2]
+ rsd[i][j][k][3] * rsd[i][j][k][3] )
/ rsd[i][j][k][0];
flux[i][j][k][1] = rsd[i][j][k][1] * u31;
flux[i][j][k][2] = rsd[i][j][k][2] * u31 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][3] = rsd[i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u31;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u31, q)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(u31, q) | 100 | = 0;
L2 = ny-1;
#pragma omp parallel for private(u31, q)
for (i = ist; i <= iend; i++) {
<LOOP-START>//firstprivate(iend ,ist ,k ,ny ,u31 ,q ,nz ,L2 ,i )
for (j = L1; j <= L2; j++) {
#pragma omp parallel for private(u31, q)
for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = rsd[i][j][k][2];
u31 = rsd[i][j][k][2] / rsd[i][j][k][0];
q = 0.50 * ( rsd[i][j][k][1] * rsd[i][j][k][1]
+ rsd[i][j][k][2] * rsd[i][j][k][2]
+ rsd[i][j][k][3] * rsd[i][j][k][3] )
/ rsd[i][j][k][0];
flux[i][j][k][1] = rsd[i][j][k][1] * u31;
flux[i][j][k][2] = rsd[i][j][k][2] * u31 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][3] = rsd[i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u31;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u31, q)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(u31, q) | 100 | q)
//firstprivate(iend ,ist ,k ,ny ,u31 ,q ,nz ,L2 ,i )
for (j = L1; j <= L2; j++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = rsd[i][j][k][2];
u31 = rsd[i][j][k][2] / rsd[i][j][k][0];
q = 0.50 * ( rsd[i][j][k][1] * rsd[i][j][k][1]
+ rsd[i][j][k][2] * rsd[i][j][k][2]
+ rsd[i][j][k][3] * rsd[i][j][k][3] )
/ rsd[i][j][k][0];
flux[i][j][k][1] = rsd[i][j][k][1] * u31;
flux[i][j][k][2] = rsd[i][j][k][2] * u31 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][3] = rsd[i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u31;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u31, q)<OMP-END> |
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