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/LU/lu.c | #pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1) | 100 | ][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u31;
}
}
}
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[i][j-1][k][m] );
}
}
#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (j = jst; j <= L2; j++) {
tmp = 1.0 / rsd[i][j][k][0];
u21j = tmp * rsd[i][j][k][1];
u31j = tmp * rsd[i][j][k][2];
u41j = tmp * rsd[i][j][k][3];
u51j = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i][j-1][k][0];
u21jm1 = tmp * rsd[i][j-1][k][1];
u31jm1 = tmp * rsd[i][j-1][k][2];
u41jm1 = tmp * rsd[i][j-1][k][3];
u51jm1 = tmp * rsd[i][j-1][k][4];
flux[i][j][k][1] = ty3 * ( u21j - u21jm1 );
flux[i][j][k][2] = (4.0/3.0) * ty3 *
( u31j - u31jm1 );
flux[i][j][k][3] = ty3 * ( u41j - u41jm1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* ty3 * ( ( u21j *u21j + u31j *u31j + u41j *u41j )
- ( u21jm1*u21jm1 + u31jm1*u31jm1 + u41jm1*u41jm1 ) )
+ (1.0/6.0)
* ty3 * ( u31j*u31j - u31jm1*u31jm1 )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dy1 * ty1 * ( rsd[i][j-1][k][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i][j+1][k][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][1] - flux[i][j][k][1] )
+ dy2 * ty1 * ( rsd[i][j-1][k][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i][j+1][k][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][2] - flux[i][j][k][2] )
+ dy3 * ty1 * ( rsd[i][j-1][k][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i][j+1][k][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][3] - flux[i][j][k][3] )
+ dy4 * ty1 * ( rsd[i][j-1][k][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i][j+1][k][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][4] - flux[i][j][k][4] )
+ dy5 * ty1 * ( rsd[i][j-1][k][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i][j+1][k][4] );
}
/*--------------------------------------------------------------------
c fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
frct[i][1][k][m] = frct[i][1][k][m]
- dsspm * ( + 5.0 * rsd[i][1][k][m]
- 4.0 * rsd[i][2][k][m]
+ rsd[i][3][k][m] );
frct[i][2][k][m] = frct[i][2][k][m]
- dsspm * ( - 4.0 * rsd[i][1][k][m]
+ 6.0 * rsd[i][2][k][m]
- 4.0 * rsd[i][3][k][m]
+ rsd[i][4][k][m] );
}
jst1 = 3;
jend1 = ny - 4;
for (j = jst1; j <= jend1; j++) {
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- dsspm * ( rsd[i][j-2][k][m]
- 4.0 * rsd[i][j-1][k][m]
+ 6.0 * rsd[i][j][k][m]
- 4.0 * rsd[i][j+1][k][m]
+ rsd[i][j+2][k][m] );
}
}
for (m = 0; m < 5; m++) {
frct[i][ny-3][k][m] = frct[i][ny-3][k][m]
- dsspm * ( rsd[i][ny-5][k][m]
- 4.0 * rsd[i][ny-4][k][m]
+ 6.0 * rsd[i][ny-3][k][m]
- 4.0 * rsd[i][ny-2][k][m] );
frct[i][ny-2][k][m] = frct[i][ny-2][k][m]
- dsspm * ( rsd[i][ny-4][k][m]
- 4.0 * rsd[i][ny-3][k][m]
+ 5.0 * rsd[i][ny-2][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1) | 100 | (tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (i = ist; i <= iend; i++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[i][j-1][k][m] );
}
}
#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (j = jst; j <= L2; j++) {
tmp = 1.0 / rsd[i][j][k][0];
u21j = tmp * rsd[i][j][k][1];
u31j = tmp * rsd[i][j][k][2];
u41j = tmp * rsd[i][j][k][3];
u51j = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i][j-1][k][0];
u21jm1 = tmp * rsd[i][j-1][k][1];
u31jm1 = tmp * rsd[i][j-1][k][2];
u41jm1 = tmp * rsd[i][j-1][k][3];
u51jm1 = tmp * rsd[i][j-1][k][4];
flux[i][j][k][1] = ty3 * ( u21j - u21jm1 );
flux[i][j][k][2] = (4.0/3.0) * ty3 *
( u31j - u31jm1 );
flux[i][j][k][3] = ty3 * ( u41j - u41jm1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* ty3 * ( ( u21j *u21j + u31j *u31j + u41j *u41j )
- ( u21jm1*u21jm1 + u31jm1*u31jm1 + u41jm1*u41jm1 ) )
+ (1.0/6.0)
* ty3 * ( u31j*u31j - u31jm1*u31jm1 )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dy1 * ty1 * ( rsd[i][j-1][k][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i][j+1][k][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][1] - flux[i][j][k][1] )
+ dy2 * ty1 * ( rsd[i][j-1][k][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i][j+1][k][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][2] - flux[i][j][k][2] )
+ dy3 * ty1 * ( rsd[i][j-1][k][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i][j+1][k][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][3] - flux[i][j][k][3] )
+ dy4 * ty1 * ( rsd[i][j-1][k][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i][j+1][k][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][4] - flux[i][j][k][4] )
+ dy5 * ty1 * ( rsd[i][j-1][k][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i][j+1][k][4] );
}
/*--------------------------------------------------------------------
c fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
frct[i][1][k][m] = frct[i][1][k][m]
- dsspm * ( + 5.0 * rsd[i][1][k][m]
- 4.0 * rsd[i][2][k][m]
+ rsd[i][3][k][m] );
frct[i][2][k][m] = frct[i][2][k][m]
- dsspm * ( - 4.0 * rsd[i][1][k][m]
+ 6.0 * rsd[i][2][k][m]
- 4.0 * rsd[i][3][k][m]
+ rsd[i][4][k][m] );
}
jst1 = 3;
jend1 = ny - 4;
for (j = jst1; j <= jend1; j++) {
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- dsspm * ( rsd[i][j-2][k][m]
- 4.0 * rsd[i][j-1][k][m]
+ 6.0 * rsd[i][j][k][m]
- 4.0 * rsd[i][j+1][k][m]
+ rsd[i][j+2][k][m] );
}
}
for (m = 0; m < 5; m++) {
frct[i][ny-3][k][m] = frct[i][ny-3][k][m]
- dsspm * ( rsd[i][ny-5][k][m]
- 4.0 * rsd[i][ny-4][k][m]
+ 6.0 * rsd[i][ny-3][k][m]
- 4.0 * rsd[i][ny-2][k][m] );
frct[i][ny-2][k][m] = frct[i][ny-2][k][m]
- dsspm * ( rsd[i][ny-4][k][m]
- 4.0 * rsd[i][ny-3][k][m]
+ 5.0 * rsd[i][ny-2][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | , u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (k = 1; k <= nz - 2; k++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[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/LU/lu.c | #pragma omp parallel for | 100 | (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[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/LU/lu.c | #pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1) | 100 | ][m] = frct[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[i][j-1][k][m] );
}
}
<LOOP-START>for (j = jst; j <= L2; j++) {
tmp = 1.0 / rsd[i][j][k][0];
u21j = tmp * rsd[i][j][k][1];
u31j = tmp * rsd[i][j][k][2];
u41j = tmp * rsd[i][j][k][3];
u51j = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i][j-1][k][0];
u21jm1 = tmp * rsd[i][j-1][k][1];
u31jm1 = tmp * rsd[i][j-1][k][2];
u41jm1 = tmp * rsd[i][j-1][k][3];
u51jm1 = tmp * rsd[i][j-1][k][4];
flux[i][j][k][1] = ty3 * ( u21j - u21jm1 );
flux[i][j][k][2] = (4.0/3.0) * ty3 *
( u31j - u31jm1 );
flux[i][j][k][3] = ty3 * ( u41j - u41jm1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* ty3 * ( ( u21j *u21j + u31j *u31j + u41j *u41j )
- ( u21jm1*u21jm1 + u31jm1*u31jm1 + u41jm1*u41jm1 ) )
+ (1.0/6.0)
* ty3 * ( u31j*u31j - u31jm1*u31jm1 )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | .0)
* ty3 * ( u31j*u31j - u31jm1*u31jm1 )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}
<LOOP-START>for (j = jst; j <= jend; j++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dy1 * ty1 * ( rsd[i][j-1][k][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i][j+1][k][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][1] - flux[i][j][k][1] )
+ dy2 * ty1 * ( rsd[i][j-1][k][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i][j+1][k][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][2] - flux[i][j][k][2] )
+ dy3 * ty1 * ( rsd[i][j-1][k][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i][j+1][k][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][3] - flux[i][j][k][3] )
+ dy4 * ty1 * ( rsd[i][j-1][k][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i][j+1][k][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][4] - flux[i][j][k][4] )
+ dy5 * ty1 * ( rsd[i][j-1][k][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i][j+1][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(u41, q) | 100 | direction flux differences
--------------------------------------------------------------------*/
<LOOP-START>for (i = ist; i <= iend; i++) {
for (j = jst; j <= jend; j++) {
#pragma omp parallel for private(u41, q)
for (k = 0; k <= nz-1; k++) {
flux[i][j][k][0] = rsd[i][j][k][3];
u41 = rsd[i][j][k][3] / 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] * u41;
flux[i][j][k][2] = rsd[i][j][k][2] * u41;
flux[i][j][k][3] = rsd[i][j][k][3] * u41 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u41;
}
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[i][j][k-1][m] );
}
}
#pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1)
for (k = 1; k <= nz-1; k++) {
tmp = 1.0 / rsd[i][j][k][0];
u21k = tmp * rsd[i][j][k][1];
u31k = tmp * rsd[i][j][k][2];
u41k = tmp * rsd[i][j][k][3];
u51k = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i][j][k-1][0];
u21km1 = tmp * rsd[i][j][k-1][1];
u31km1 = tmp * rsd[i][j][k-1][2];
u41km1 = tmp * rsd[i][j][k-1][3];
u51km1 = tmp * rsd[i][j][k-1][4];
flux[i][j][k][1] = tz3 * ( u21k - u21km1 );
flux[i][j][k][2] = tz3 * ( u31k - u31km1 );
flux[i][j][k][3] = (4.0/3.0) * tz3 * ( u41k
- u41km1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tz3 * ( ( u21k *u21k + u31k *u31k + u41k *u41k )
- ( u21km1*u21km1 + u31km1*u31km1 + u41km1*u41km1 ) )
+ (1.0/6.0)
* tz3 * ( u41k*u41k - u41km1*u41km1 )
+ C1 * C5 * tz3 * ( u51k - u51km1 );
}
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dz1 * tz1 * ( rsd[i][j][k+1][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i][j][k-1][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][1] - flux[i][j][k][1] )
+ dz2 * tz1 * ( rsd[i][j][k+1][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i][j][k-1][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][2] - flux[i][j][k][2] )
+ dz3 * tz1 * ( rsd[i][j][k+1][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i][j][k-1][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][3] - flux[i][j][k][3] )
+ dz4 * tz1 * ( rsd[i][j][k+1][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i][j][k-1][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][4] - flux[i][j][k][4] )
+ dz5 * tz1 * ( rsd[i][j][k+1][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[i][j][k-1][4] );
}
/*--------------------------------------------------------------------
c fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
frct[i][j][1][m] = frct[i][j][1][m]
- dsspm * ( + 5.0 * rsd[i][j][1][m]
- 4.0 * rsd[i][j][2][m]
+ rsd[i][j][3][m] );
frct[i][j][2][m] = frct[i][j][2][m]
- dsspm * (- 4.0 * rsd[i][j][1][m]
+ 6.0 * rsd[i][j][2][m]
- 4.0 * rsd[i][j][3][m]
+ rsd[i][j][4][m] );
}
#pragma omp parallel
for (k = 3; k <= nz - 4; k++) {
#pragma omp parallel
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- dsspm * ( rsd[i][j][k-2][m]
- 4.0 * rsd[i][j][k-1][m]
+ 6.0 * rsd[i][j][k][m]
- 4.0 * rsd[i][j][k+1][m]
+ rsd[i][j][k+2][m] );
}
}
for (m = 0; m < 5; m++) {
frct[i][j][nz-3][m] = frct[i][j][nz-3][m]
- dsspm * ( rsd[i][j][nz-5][m]
- 4.0 * rsd[i][j][nz-4][m]
+ 6.0 * rsd[i][j][nz-3][m]
- 4.0 * rsd[i][j][nz-2][m] );
frct[i][j][nz-2][m] = frct[i][j][nz-2][m]
- dsspm * ( rsd[i][j][nz-4][m]
- 4.0 * rsd[i][j][nz-3][m]
+ 5.0 * rsd[i][j][nz-2][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u41, q)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(u41, q) | 100 | lel for private(u41, q)
for (i = ist; i <= iend; i++) {
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 0; k <= nz-1; k++) {
flux[i][j][k][0] = rsd[i][j][k][3];
u41 = rsd[i][j][k][3] / 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] * u41;
flux[i][j][k][2] = rsd[i][j][k][2] * u41;
flux[i][j][k][3] = rsd[i][j][k][3] * u41 + C2 *
( rsd[i][j][k][4] - q );
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u41;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u41, q)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | rsd[i][j][k][4] - q );
flux[i][j][k][4] = ( C1 * rsd[i][j][k][4] - C2 * q ) * u41;
}
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[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/LU/lu.c | #pragma omp parallel for | 100 | - C2 * q ) * u41;
}
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
frct[i][j][k][m] = frct[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[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/LU/lu.c | #pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1) | 100 | ][m] = frct[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[i][j][k-1][m] );
}
}
<LOOP-START>for (k = 1; k <= nz-1; k++) {
tmp = 1.0 / rsd[i][j][k][0];
u21k = tmp * rsd[i][j][k][1];
u31k = tmp * rsd[i][j][k][2];
u41k = tmp * rsd[i][j][k][3];
u51k = tmp * rsd[i][j][k][4];
tmp = 1.0 / rsd[i][j][k-1][0];
u21km1 = tmp * rsd[i][j][k-1][1];
u31km1 = tmp * rsd[i][j][k-1][2];
u41km1 = tmp * rsd[i][j][k-1][3];
u51km1 = tmp * rsd[i][j][k-1][4];
flux[i][j][k][1] = tz3 * ( u21k - u21km1 );
flux[i][j][k][2] = tz3 * ( u31k - u31km1 );
flux[i][j][k][3] = (4.0/3.0) * tz3 * ( u41k
- u41km1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tz3 * ( ( u21k *u21k + u31k *u31k + u41k *u41k )
- ( u21km1*u21km1 + u31km1*u31km1 + u41km1*u41km1 ) )
+ (1.0/6.0)
* tz3 * ( u41k*u41k - u41km1*u41km1 )
+ C1 * C5 * tz3 * ( u51k - u51km1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | .0)
* tz3 * ( u41k*u41k - u41km1*u41km1 )
+ C1 * C5 * tz3 * ( u51k - u51km1 );
}
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
frct[i][j][k][0] = frct[i][j][k][0]
+ dz1 * tz1 * ( rsd[i][j][k+1][0]
- 2.0 * rsd[i][j][k][0]
+ rsd[i][j][k-1][0] );
frct[i][j][k][1] = frct[i][j][k][1]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][1] - flux[i][j][k][1] )
+ dz2 * tz1 * ( rsd[i][j][k+1][1]
- 2.0 * rsd[i][j][k][1]
+ rsd[i][j][k-1][1] );
frct[i][j][k][2] = frct[i][j][k][2]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][2] - flux[i][j][k][2] )
+ dz3 * tz1 * ( rsd[i][j][k+1][2]
- 2.0 * rsd[i][j][k][2]
+ rsd[i][j][k-1][2] );
frct[i][j][k][3] = frct[i][j][k][3]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][3] - flux[i][j][k][3] )
+ dz4 * tz1 * ( rsd[i][j][k+1][3]
- 2.0 * rsd[i][j][k][3]
+ rsd[i][j][k-1][3] );
frct[i][j][k][4] = frct[i][j][k][4]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][4] - flux[i][j][k][4] )
+ dz5 * tz1 * ( rsd[i][j][k+1][4]
- 2.0 * rsd[i][j][k][4]
+ rsd[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, k, m;
int iglob, jglob;
double tmp;
double u000ijk[5];
<LOOP-START>for (m = 0; m < 5; m++) {
errnm[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(tmp) | 100 | d; j++) {
jglob = j;
for (k = 1; k <= nz-2; k++) {
exact( iglob, jglob, k, u000ijk );
<LOOP-START>for (m = 0; m < 5; m++) {
tmp = ( u000ijk[m] - u[i][j][k][m] );
errnm[m] = errnm[m] + tmp *tmp;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | tmp = ( u000ijk[m] - u[i][j][k][m] );
errnm[m] = errnm[m] + tmp *tmp;
}
}
}
}
<LOOP-START>for (m = 0; m < 5; m++) {
errnm[m] = sqrt ( errnm[m] / ( (nx0-2)*(ny0-2)*(nz0-2) ) );
}<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 = ((double)i) / (nx0 - 1);
eta = ((double)j) / (ny0 - 1);
zeta = ((double)k) / (nz - 1);
<LOOP-START>for (m = 0; m < 5; m++) {
u000ijk[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<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp1, tmp2, tmp3) | 100 | c34 = C3 * C4;
#pragma omp for private(tmp1, tmp2, tmp3)
for (i = ist; i <= iend; i++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
/*--------------------------------------------------------------------
c form the block daigonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i][j][k][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
d[i][j][0][0] = 1.0
+ dt * 2.0 * ( tx1 * dx1
+ ty1 * dy1
+ tz1 * dz1 );
d[i][j][0][1] = 0.0;
d[i][j][0][2] = 0.0;
d[i][j][0][3] = 0.0;
d[i][j][0][4] = 0.0;
d[i][j][1][0] = dt * 2.0
* ( tx1 * ( - r43 * c34 * tmp2 * u[i][j][k][1] )
+ ty1 * ( - c34 * tmp2 * u[i][j][k][1] )
+ tz1 * ( - c34 * tmp2 * u[i][j][k][1] ) );
d[i][j][1][1] = 1.0
+ dt * 2.0
* ( tx1 * r43 * c34 * tmp1
+ ty1 * c34 * tmp1
+ tz1 * c34 * tmp1 )
+ dt * 2.0 * ( tx1 * dx2
+ ty1 * dy2
+ tz1 * dz2 );
d[i][j][1][2] = 0.0;
d[i][j][1][3] = 0.0;
d[i][j][1][4] = 0.0;
d[i][j][2][0] = dt * 2.0
* ( tx1 * ( - c34 * tmp2 * u[i][j][k][2] )
+ ty1 * ( - r43 * c34 * tmp2 * u[i][j][k][2] )
+ tz1 * ( - c34 * tmp2 * u[i][j][k][2] ) );
d[i][j][2][1] = 0.0;
d[i][j][2][2] = 1.0
+ dt * 2.0
* ( tx1 * c34 * tmp1
+ ty1 * r43 * c34 * tmp1
+ tz1 * c34 * tmp1 )
+ dt * 2.0 * ( tx1 * dx3
+ ty1 * dy3
+ tz1 * dz3 );
d[i][j][2][3] = 0.0;
d[i][j][2][4] = 0.0;
d[i][j][3][0] = dt * 2.0
* ( tx1 * ( - c34 * tmp2 * u[i][j][k][3] )
+ ty1 * ( - c34 * tmp2 * u[i][j][k][3] )
+ tz1 * ( - r43 * c34 * tmp2 * u[i][j][k][3] ) );
d[i][j][3][1] = 0.0;
d[i][j][3][2] = 0.0;
d[i][j][3][3] = 1.0
+ dt * 2.0
* ( tx1 * c34 * tmp1
+ ty1 * c34 * tmp1
+ tz1 * r43 * c34 * tmp1 )
+ dt * 2.0 * ( tx1 * dx4
+ ty1 * dy4
+ tz1 * dz4 );
d[i][j][3][4] = 0.0;
d[i][j][4][0] = dt * 2.0
* ( tx1 * ( - ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][2]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][3]) )
- ( c1345 ) * tmp2 * u[i][j][k][4] )
+ ty1 * ( - ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][1]) )
- ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][2]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][3]) )
- ( c1345 ) * tmp2 * u[i][j][k][4] )
+ tz1 * ( - ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][2]) )
- ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][3]) )
- ( c1345 ) * tmp2 * u[i][j][k][4] ) );
d[i][j][4][1] = dt * 2.0
* ( tx1 * ( r43*c34 - c1345 ) * tmp2 * u[i][j][k][1]
+ ty1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][1]
+ tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][1] );
d[i][j][4][2] = dt * 2.0
* ( tx1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][2]
+ ty1 * ( r43*c34 -c1345 ) * tmp2 * u[i][j][k][2]
+ tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][2] );
d[i][j][4][3] = dt * 2.0
* ( tx1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][3]
+ ty1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][3]
+ tz1 * ( r43*c34 - c1345 ) * tmp2 * u[i][j][k][3] );
d[i][j][4][4] = 1.0
+ dt * 2.0 * ( tx1 * c1345 * tmp1
+ ty1 * c1345 * tmp1
+ tz1 * c1345 * tmp1 )
+ dt * 2.0 * ( tx1 * dx5
+ ty1 * dy5
+ tz1 * dz5 );
/*--------------------------------------------------------------------
c form the first block sub-diagonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i][j][k-1][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
a[i][j][0][0] = - dt * tz1 * dz1;
a[i][j][0][1] = 0.0;
a[i][j][0][2] = 0.0;
a[i][j][0][3] = - dt * tz2;
a[i][j][0][4] = 0.0;
a[i][j][1][0] = - dt * tz2
* ( - ( u[i][j][k-1][1]*u[i][j][k-1][3] ) * tmp2 )
- dt * tz1 * ( - c34 * tmp2 * u[i][j][k-1][1] );
a[i][j][1][1] = - dt * tz2 * ( u[i][j][k-1][3] * tmp1 )
- dt * tz1 * c34 * tmp1
- dt * tz1 * dz2 ;
a[i][j][1][2] = 0.0;
a[i][j][1][3] = - dt * tz2 * ( u[i][j][k-1][1] * tmp1 );
a[i][j][1][4] = 0.0;
a[i][j][2][0] = - dt * tz2
* ( - ( u[i][j][k-1][2]*u[i][j][k-1][3] ) * tmp2 )
- dt * tz1 * ( - c34 * tmp2 * u[i][j][k-1][2] );
a[i][j][2][1] = 0.0;
a[i][j][2][2] = - dt * tz2 * ( u[i][j][k-1][3] * tmp1 )
- dt * tz1 * ( c34 * tmp1 )
- dt * tz1 * dz3;
a[i][j][2][3] = - dt * tz2 * ( u[i][j][k-1][2] * tmp1 );
a[i][j][2][4] = 0.0;
a[i][j][3][0] = - dt * tz2
* ( - ( u[i][j][k-1][3] * tmp1 ) *( u[i][j][k-1][3] * tmp1 )
+ 0.50 * C2
* ( ( u[i][j][k-1][1] * u[i][j][k-1][1]
+ u[i][j][k-1][2] * u[i][j][k-1][2]
+ u[i][j][k-1][3] * u[i][j][k-1][3] ) * tmp2 ) )
- dt * tz1 * ( - r43 * c34 * tmp2 * u[i][j][k-1][3] );
a[i][j][3][1] = - dt * tz2
* ( - C2 * ( u[i][j][k-1][1] * tmp1 ) );
a[i][j][3][2] = - dt * tz2
* ( - C2 * ( u[i][j][k-1][2] * tmp1 ) );
a[i][j][3][3] = - dt * tz2 * ( 2.0 - C2 )
* ( u[i][j][k-1][3] * tmp1 )
- dt * tz1 * ( r43 * c34 * tmp1 )
- dt * tz1 * dz4;
a[i][j][3][4] = - dt * tz2 * C2;
a[i][j][4][0] = - dt * tz2
* ( ( C2 * ( u[i][j][k-1][1] * u[i][j][k-1][1]
+ u[i][j][k-1][2] * u[i][j][k-1][2]
+ u[i][j][k-1][3] * u[i][j][k-1][3] ) * tmp2
- C1 * ( u[i][j][k-1][4] * tmp1 ) )
* ( u[i][j][k-1][3] * tmp1 ) )
- dt * tz1
* ( - ( c34 - c1345 ) * tmp3 * (u[i][j][k-1][1]*u[i][j][k-1][1])
- ( c34 - c1345 ) * tmp3 * (u[i][j][k-1][2]*u[i][j][k-1][2])
- ( r43*c34 - c1345 )* tmp3 * (u[i][j][k-1][3]*u[i][j][k-1][3])
- c1345 * tmp2 * u[i][j][k-1][4] );
a[i][j][4][1] = - dt * tz2
* ( - C2 * ( u[i][j][k-1][1]*u[i][j][k-1][3] ) * tmp2 )
- dt * tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k-1][1];
a[i][j][4][2] = - dt * tz2
* ( - C2 * ( u[i][j][k-1][2]*u[i][j][k-1][3] ) * tmp2 )
- dt * tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k-1][2];
a[i][j][4][3] = - dt * tz2
* ( C1 * ( u[i][j][k-1][4] * tmp1 )
- 0.50 * C2
* ( ( u[i][j][k-1][1]*u[i][j][k-1][1]
+ u[i][j][k-1][2]*u[i][j][k-1][2]
+ 3.0*u[i][j][k-1][3]*u[i][j][k-1][3] ) * tmp2 ) )
- dt * tz1 * ( r43*c34 - c1345 ) * tmp2 * u[i][j][k-1][3];
a[i][j][4][4] = - dt * tz2
* ( C1 * ( u[i][j][k-1][3] * tmp1 ) )
- dt * tz1 * c1345 * tmp1
- dt * tz1 * dz5;
/*--------------------------------------------------------------------
c form the second block sub-diagonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i][j-1][k][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
b[i][j][0][0] = - dt * ty1 * dy1;
b[i][j][0][1] = 0.0;
b[i][j][0][2] = - dt * ty2;
b[i][j][0][3] = 0.0;
b[i][j][0][4] = 0.0;
b[i][j][1][0] = - dt * ty2
* ( - ( u[i][j-1][k][1]*u[i][j-1][k][2] ) * tmp2 )
- dt * ty1 * ( - c34 * tmp2 * u[i][j-1][k][1] );
b[i][j][1][1] = - dt * ty2 * ( u[i][j-1][k][2] * tmp1 )
- dt * ty1 * ( c34 * tmp1 )
- dt * ty1 * dy2;
b[i][j][1][2] = - dt * ty2 * ( u[i][j-1][k][1] * tmp1 );
b[i][j][1][3] = 0.0;
b[i][j][1][4] = 0.0;
b[i][j][2][0] = - dt * ty2
* ( - ( u[i][j-1][k][2] * tmp1 ) *( u[i][j-1][k][2] * tmp1 )
+ 0.50 * C2 * ( ( u[i][j-1][k][1] * u[i][j-1][k][1]
+ u[i][j-1][k][2] * u[i][j-1][k][2]
+ u[i][j-1][k][3] * u[i][j-1][k][3] )
* tmp2 ) )
- dt * ty1 * ( - r43 * c34 * tmp2 * u[i][j-1][k][2] );
b[i][j][2][1] = - dt * ty2
* ( - C2 * ( u[i][j-1][k][1] * tmp1 ) );
b[i][j][2][2] = - dt * ty2 * ( ( 2.0 - C2 )
* ( u[i][j-1][k][2] * tmp1 ) )
- dt * ty1 * ( r43 * c34 * tmp1 )
- dt * ty1 * dy3;
b[i][j][2][3] = - dt * ty2
* ( - C2 * ( u[i][j-1][k][3] * tmp1 ) );
b[i][j][2][4] = - dt * ty2 * C2;
b[i][j][3][0] = - dt * ty2
* ( - ( u[i][j-1][k][2]*u[i][j-1][k][3] ) * tmp2 )
- dt * ty1 * ( - c34 * tmp2 * u[i][j-1][k][3] );
b[i][j][3][1] = 0.0;
b[i][j][3][2] = - dt * ty2 * ( u[i][j-1][k][3] * tmp1 );
b[i][j][3][3] = - dt * ty2 * ( u[i][j-1][k][2] * tmp1 )
- dt * ty1 * ( c34 * tmp1 )
- dt * ty1 * dy4;
b[i][j][3][4] = 0.0;
b[i][j][4][0] = - dt * ty2
* ( ( C2 * ( u[i][j-1][k][1] * u[i][j-1][k][1]
+ u[i][j-1][k][2] * u[i][j-1][k][2]
+ u[i][j-1][k][3] * u[i][j-1][k][3] ) * tmp2
- C1 * ( u[i][j-1][k][4] * tmp1 ) )
* ( u[i][j-1][k][2] * tmp1 ) )
- dt * ty1
* ( - ( c34 - c1345 )*tmp3*(pow2(u[i][j-1][k][1]))
- ( r43*c34 - c1345 )*tmp3*(pow2(u[i][j-1][k][2]))
- ( c34 - c1345 )*tmp3*(pow2(u[i][j-1][k][3]))
- c1345*tmp2*u[i][j-1][k][4] );
b[i][j][4][1] = - dt * ty2
* ( - C2 * ( u[i][j-1][k][1]*u[i][j-1][k][2] ) * tmp2 )
- dt * ty1
* ( c34 - c1345 ) * tmp2 * u[i][j-1][k][1];
b[i][j][4][2] = - dt * ty2
* ( C1 * ( u[i][j-1][k][4] * tmp1 )
- 0.50 * C2
* ( ( u[i][j-1][k][1]*u[i][j-1][k][1]
+ 3.0 * u[i][j-1][k][2]*u[i][j-1][k][2]
+ u[i][j-1][k][3]*u[i][j-1][k][3] ) * tmp2 ) )
- dt * ty1
* ( r43*c34 - c1345 ) * tmp2 * u[i][j-1][k][2];
b[i][j][4][3] = - dt * ty2
* ( - C2 * ( u[i][j-1][k][2]*u[i][j-1][k][3] ) * tmp2 )
- dt * ty1 * ( c34 - c1345 ) * tmp2 * u[i][j-1][k][3];
b[i][j][4][4] = - dt * ty2
* ( C1 * ( u[i][j-1][k][2] * tmp1 ) )
- dt * ty1 * c1345 * tmp1
- dt * ty1 * dy5;
/*--------------------------------------------------------------------
c form the third block sub-diagonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i-1][j][k][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
c[i][j][0][0] = - dt * tx1 * dx1;
c[i][j][0][1] = - dt * tx2;
c[i][j][0][2] = 0.0;
c[i][j][0][3] = 0.0;
c[i][j][0][4] = 0.0;
c[i][j][1][0] = - dt * tx2
* ( - ( u[i-1][j][k][1] * tmp1 ) *( u[i-1][j][k][1] * tmp1 )
+ C2 * 0.50 * ( u[i-1][j][k][1] * u[i-1][j][k][1]
+ u[i-1][j][k][2] * u[i-1][j][k][2]
+ u[i-1][j][k][3] * u[i-1][j][k][3] ) * tmp2 )
- dt * tx1 * ( - r43 * c34 * tmp2 * u[i-1][j][k][1] );
c[i][j][1][1] = - dt * tx2
* ( ( 2.0 - C2 ) * ( u[i-1][j][k][1] * tmp1 ) )
- dt * tx1 * ( r43 * c34 * tmp1 )
- dt * tx1 * dx2;
c[i][j][1][2] = - dt * tx2
* ( - C2 * ( u[i-1][j][k][2] * tmp1 ) );
c[i][j][1][3] = - dt * tx2
* ( - C2 * ( u[i-1][j][k][3] * tmp1 ) );
c[i][j][1][4] = - dt * tx2 * C2;
c[i][j][2][0] = - dt * tx2
* ( - ( u[i-1][j][k][1] * u[i-1][j][k][2] ) * tmp2 )
- dt * tx1 * ( - c34 * tmp2 * u[i-1][j][k][2] );
c[i][j][2][1] = - dt * tx2 * ( u[i-1][j][k][2] * tmp1 );
c[i][j][2][2] = - dt * tx2 * ( u[i-1][j][k][1] * tmp1 )
- dt * tx1 * ( c34 * tmp1 )
- dt * tx1 * dx3;
c[i][j][2][3] = 0.0;
c[i][j][2][4] = 0.0;
c[i][j][3][0] = - dt * tx2
* ( - ( u[i-1][j][k][1]*u[i-1][j][k][3] ) * tmp2 )
- dt * tx1 * ( - c34 * tmp2 * u[i-1][j][k][3] );
c[i][j][3][1] = - dt * tx2 * ( u[i-1][j][k][3] * tmp1 );
c[i][j][3][2] = 0.0;
c[i][j][3][3] = - dt * tx2 * ( u[i-1][j][k][1] * tmp1 )
- dt * tx1 * ( c34 * tmp1 )
- dt * tx1 * dx4;
c[i][j][3][4] = 0.0;
c[i][j][4][0] = - dt * tx2
* ( ( C2 * ( u[i-1][j][k][1] * u[i-1][j][k][1]
+ u[i-1][j][k][2] * u[i-1][j][k][2]
+ u[i-1][j][k][3] * u[i-1][j][k][3] ) * tmp2
- C1 * ( u[i-1][j][k][4] * tmp1 ) )
* ( u[i-1][j][k][1] * tmp1 ) )
- dt * tx1
* ( - ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i-1][j][k][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i-1][j][k][2]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i-1][j][k][3]) )
- c1345 * tmp2 * u[i-1][j][k][4] );
c[i][j][4][1] = - dt * tx2
* ( C1 * ( u[i-1][j][k][4] * tmp1 )
- 0.50 * C2
* ( ( 3.0*u[i-1][j][k][1]*u[i-1][j][k][1]
+ u[i-1][j][k][2]*u[i-1][j][k][2]
+ u[i-1][j][k][3]*u[i-1][j][k][3] ) * tmp2 ) )
- dt * tx1
* ( r43*c34 - c1345 ) * tmp2 * u[i-1][j][k][1];
c[i][j][4][2] = - dt * tx2
* ( - C2 * ( u[i-1][j][k][2]*u[i-1][j][k][1] ) * tmp2 )
- dt * tx1
* ( c34 - c1345 ) * tmp2 * u[i-1][j][k][2];
c[i][j][4][3] = - dt * tx2
* ( - C2 * ( u[i-1][j][k][3]*u[i-1][j][k][1] ) * tmp2 )
- dt * tx1
* ( c34 - c1345 ) * tmp2 * u[i-1][j][k][3];
c[i][j][4][4] = - dt * tx2
* ( C1 * ( u[i-1][j][k][1] * tmp1 ) )
- dt * tx1 * c1345 * tmp1
- dt * tx1 * dx5;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2, tmp3) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp1, tmp2, tmp3) | 100 | NMP)
#pragma omp parallel for private(tmp1, tmp2, tmp3)
for (i = iend; i >= ist; i--) {
<LOOP-START>for (j = jend; j >= jst; j--) {
/*#else
for (i = ist; i <= iend; i++) {
for (j = jst; j <= jend; j++) {
*/
/*--------------------------------------------------------------------
c form the block daigonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i][j][k][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
d[i][j][0][0] = 1.0
+ dt * 2.0 * ( tx1 * dx1
+ ty1 * dy1
+ tz1 * dz1 );
d[i][j][0][1] = 0.0;
d[i][j][0][2] = 0.0;
d[i][j][0][3] = 0.0;
d[i][j][0][4] = 0.0;
d[i][j][1][0] = dt * 2.0
* ( tx1 * ( - r43 * c34 * tmp2 * u[i][j][k][1] )
+ ty1 * ( - c34 * tmp2 * u[i][j][k][1] )
+ tz1 * ( - c34 * tmp2 * u[i][j][k][1] ) );
d[i][j][1][1] = 1.0
+ dt * 2.0
* ( tx1 * r43 * c34 * tmp1
+ ty1 * c34 * tmp1
+ tz1 * c34 * tmp1 )
+ dt * 2.0 * ( tx1 * dx2
+ ty1 * dy2
+ tz1 * dz2 );
d[i][j][1][2] = 0.0;
d[i][j][1][3] = 0.0;
d[i][j][1][4] = 0.0;
d[i][j][2][0] = dt * 2.0
* ( tx1 * ( - c34 * tmp2 * u[i][j][k][2] )
+ ty1 * ( - r43 * c34 * tmp2 * u[i][j][k][2] )
+ tz1 * ( - c34 * tmp2 * u[i][j][k][2] ) );
d[i][j][2][1] = 0.0;
d[i][j][2][2] = 1.0
+ dt * 2.0
* ( tx1 * c34 * tmp1
+ ty1 * r43 * c34 * tmp1
+ tz1 * c34 * tmp1 )
+ dt * 2.0 * ( tx1 * dx3
+ ty1 * dy3
+ tz1 * dz3 );
d[i][j][2][3] = 0.0;
d[i][j][2][4] = 0.0;
d[i][j][3][0] = dt * 2.0
* ( tx1 * ( - c34 * tmp2 * u[i][j][k][3] )
+ ty1 * ( - c34 * tmp2 * u[i][j][k][3] )
+ tz1 * ( - r43 * c34 * tmp2 * u[i][j][k][3] ) );
d[i][j][3][1] = 0.0;
d[i][j][3][2] = 0.0;
d[i][j][3][3] = 1.0
+ dt * 2.0
* ( tx1 * c34 * tmp1
+ ty1 * c34 * tmp1
+ tz1 * r43 * c34 * tmp1 )
+ dt * 2.0 * ( tx1 * dx4
+ ty1 * dy4
+ tz1 * dz4 );
d[i][j][3][4] = 0.0;
d[i][j][4][0] = dt * 2.0
* ( tx1 * ( - ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][2]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][3]) )
- ( c1345 ) * tmp2 * u[i][j][k][4] )
+ ty1 * ( - ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][1]) )
- ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][2]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][3]) )
- ( c1345 ) * tmp2 * u[i][j][k][4] )
+ tz1 * ( - ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][2]) )
- ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k][3]) )
- ( c1345 ) * tmp2 * u[i][j][k][4] ) );
d[i][j][4][1] = dt * 2.0
* ( tx1 * ( r43*c34 - c1345 ) * tmp2 * u[i][j][k][1]
+ ty1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][1]
+ tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][1] );
d[i][j][4][2] = dt * 2.0
* ( tx1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][2]
+ ty1 * ( r43*c34 -c1345 ) * tmp2 * u[i][j][k][2]
+ tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][2] );
d[i][j][4][3] = dt * 2.0
* ( tx1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][3]
+ ty1 * ( c34 - c1345 ) * tmp2 * u[i][j][k][3]
+ tz1 * ( r43*c34 - c1345 ) * tmp2 * u[i][j][k][3] );
d[i][j][4][4] = 1.0
+ dt * 2.0 * ( tx1 * c1345 * tmp1
+ ty1 * c1345 * tmp1
+ tz1 * c1345 * tmp1 )
+ dt * 2.0 * ( tx1 * dx5
+ ty1 * dy5
+ tz1 * dz5 );
/*--------------------------------------------------------------------
c form the first block sub-diagonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i+1][j][k][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
a[i][j][0][0] = - dt * tx1 * dx1;
a[i][j][0][1] = dt * tx2;
a[i][j][0][2] = 0.0;
a[i][j][0][3] = 0.0;
a[i][j][0][4] = 0.0;
a[i][j][1][0] = dt * tx2
* ( - ( u[i+1][j][k][1] * tmp1 ) *( u[i+1][j][k][1] * tmp1 )
+ C2 * 0.50 * ( u[i+1][j][k][1] * u[i+1][j][k][1]
+ u[i+1][j][k][2] * u[i+1][j][k][2]
+ u[i+1][j][k][3] * u[i+1][j][k][3] ) * tmp2 )
- dt * tx1 * ( - r43 * c34 * tmp2 * u[i+1][j][k][1] );
a[i][j][1][1] = dt * tx2
* ( ( 2.0 - C2 ) * ( u[i+1][j][k][1] * tmp1 ) )
- dt * tx1 * ( r43 * c34 * tmp1 )
- dt * tx1 * dx2;
a[i][j][1][2] = dt * tx2
* ( - C2 * ( u[i+1][j][k][2] * tmp1 ) );
a[i][j][1][3] = dt * tx2
* ( - C2 * ( u[i+1][j][k][3] * tmp1 ) );
a[i][j][1][4] = dt * tx2 * C2 ;
a[i][j][2][0] = dt * tx2
* ( - ( u[i+1][j][k][1] * u[i+1][j][k][2] ) * tmp2 )
- dt * tx1 * ( - c34 * tmp2 * u[i+1][j][k][2] );
a[i][j][2][1] = dt * tx2 * ( u[i+1][j][k][2] * tmp1 );
a[i][j][2][2] = dt * tx2 * ( u[i+1][j][k][1] * tmp1 )
- dt * tx1 * ( c34 * tmp1 )
- dt * tx1 * dx3;
a[i][j][2][3] = 0.0;
a[i][j][2][4] = 0.0;
a[i][j][3][0] = dt * tx2
* ( - ( u[i+1][j][k][1]*u[i+1][j][k][3] ) * tmp2 )
- dt * tx1 * ( - c34 * tmp2 * u[i+1][j][k][3] );
a[i][j][3][1] = dt * tx2 * ( u[i+1][j][k][3] * tmp1 );
a[i][j][3][2] = 0.0;
a[i][j][3][3] = dt * tx2 * ( u[i+1][j][k][1] * tmp1 )
- dt * tx1 * ( c34 * tmp1 )
- dt * tx1 * dx4;
a[i][j][3][4] = 0.0;
a[i][j][4][0] = dt * tx2
* ( ( C2 * ( u[i+1][j][k][1] * u[i+1][j][k][1]
+ u[i+1][j][k][2] * u[i+1][j][k][2]
+ u[i+1][j][k][3] * u[i+1][j][k][3] ) * tmp2
- C1 * ( u[i+1][j][k][4] * tmp1 ) )
* ( u[i+1][j][k][1] * tmp1 ) )
- dt * tx1
* ( - ( r43*c34 - c1345 ) * tmp3 * ( pow2(u[i+1][j][k][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i+1][j][k][2]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i+1][j][k][3]) )
- c1345 * tmp2 * u[i+1][j][k][4] );
a[i][j][4][1] = dt * tx2
* ( C1 * ( u[i+1][j][k][4] * tmp1 )
- 0.50 * C2
* ( ( 3.0*u[i+1][j][k][1]*u[i+1][j][k][1]
+ u[i+1][j][k][2]*u[i+1][j][k][2]
+ u[i+1][j][k][3]*u[i+1][j][k][3] ) * tmp2 ) )
- dt * tx1
* ( r43*c34 - c1345 ) * tmp2 * u[i+1][j][k][1];
a[i][j][4][2] = dt * tx2
* ( - C2 * ( u[i+1][j][k][2]*u[i+1][j][k][1] ) * tmp2 )
- dt * tx1
* ( c34 - c1345 ) * tmp2 * u[i+1][j][k][2];
a[i][j][4][3] = dt * tx2
* ( - C2 * ( u[i+1][j][k][3]*u[i+1][j][k][1] ) * tmp2 )
- dt * tx1
* ( c34 - c1345 ) * tmp2 * u[i+1][j][k][3];
a[i][j][4][4] = dt * tx2
* ( C1 * ( u[i+1][j][k][1] * tmp1 ) )
- dt * tx1 * c1345 * tmp1
- dt * tx1 * dx5;
/*--------------------------------------------------------------------
c form the second block sub-diagonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i][j+1][k][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
b[i][j][0][0] = - dt * ty1 * dy1;
b[i][j][0][1] = 0.0;
b[i][j][0][2] = dt * ty2;
b[i][j][0][3] = 0.0;
b[i][j][0][4] = 0.0;
b[i][j][1][0] = dt * ty2
* ( - ( u[i][j+1][k][1]*u[i][j+1][k][2] ) * tmp2 )
- dt * ty1 * ( - c34 * tmp2 * u[i][j+1][k][1] );
b[i][j][1][1] = dt * ty2 * ( u[i][j+1][k][2] * tmp1 )
- dt * ty1 * ( c34 * tmp1 )
- dt * ty1 * dy2;
b[i][j][1][2] = dt * ty2 * ( u[i][j+1][k][1] * tmp1 );
b[i][j][1][3] = 0.0;
b[i][j][1][4] = 0.0;
b[i][j][2][0] = dt * ty2
* ( - ( u[i][j+1][k][2] * tmp1 ) *( u[i][j+1][k][2] * tmp1 )
+ 0.50 * C2 * ( ( u[i][j+1][k][1] * u[i][j+1][k][1]
+ u[i][j+1][k][2] * u[i][j+1][k][2]
+ u[i][j+1][k][3] * u[i][j+1][k][3] )
* tmp2 ) )
- dt * ty1 * ( - r43 * c34 * tmp2 * u[i][j+1][k][2] );
b[i][j][2][1] = dt * ty2
* ( - C2 * ( u[i][j+1][k][1] * tmp1 ) );
b[i][j][2][2] = dt * ty2 * ( ( 2.0 - C2 )
* ( u[i][j+1][k][2] * tmp1 ) )
- dt * ty1 * ( r43 * c34 * tmp1 )
- dt * ty1 * dy3;
b[i][j][2][3] = dt * ty2
* ( - C2 * ( u[i][j+1][k][3] * tmp1 ) );
b[i][j][2][4] = dt * ty2 * C2;
b[i][j][3][0] = dt * ty2
* ( - ( u[i][j+1][k][2]*u[i][j+1][k][3] ) * tmp2 )
- dt * ty1 * ( - c34 * tmp2 * u[i][j+1][k][3] );
b[i][j][3][1] = 0.0;
b[i][j][3][2] = dt * ty2 * ( u[i][j+1][k][3] * tmp1 );
b[i][j][3][3] = dt * ty2 * ( u[i][j+1][k][2] * tmp1 )
- dt * ty1 * ( c34 * tmp1 )
- dt * ty1 * dy4;
b[i][j][3][4] = 0.0;
b[i][j][4][0] = dt * ty2
* ( ( C2 * ( u[i][j+1][k][1] * u[i][j+1][k][1]
+ u[i][j+1][k][2] * u[i][j+1][k][2]
+ u[i][j+1][k][3] * u[i][j+1][k][3] ) * tmp2
- C1 * ( u[i][j+1][k][4] * tmp1 ) )
* ( u[i][j+1][k][2] * tmp1 ) )
- dt * ty1
* ( - ( c34 - c1345 )*tmp3*( pow2(u[i][j+1][k][1]) )
- ( r43*c34 - c1345 )*tmp3*( pow2(u[i][j+1][k][2]) )
- ( c34 - c1345 )*tmp3*( pow2(u[i][j+1][k][3]) )
- c1345*tmp2*u[i][j+1][k][4] );
b[i][j][4][1] = dt * ty2
* ( - C2 * ( u[i][j+1][k][1]*u[i][j+1][k][2] ) * tmp2 )
- dt * ty1
* ( c34 - c1345 ) * tmp2 * u[i][j+1][k][1];
b[i][j][4][2] = dt * ty2
* ( C1 * ( u[i][j+1][k][4] * tmp1 )
- 0.50 * C2
* ( ( u[i][j+1][k][1]*u[i][j+1][k][1]
+ 3.0 * u[i][j+1][k][2]*u[i][j+1][k][2]
+ u[i][j+1][k][3]*u[i][j+1][k][3] ) * tmp2 ) )
- dt * ty1
* ( r43*c34 - c1345 ) * tmp2 * u[i][j+1][k][2];
b[i][j][4][3] = dt * ty2
* ( - C2 * ( u[i][j+1][k][2]*u[i][j+1][k][3] ) * tmp2 )
- dt * ty1 * ( c34 - c1345 ) * tmp2 * u[i][j+1][k][3];
b[i][j][4][4] = dt * ty2
* ( C1 * ( u[i][j+1][k][2] * tmp1 ) )
- dt * ty1 * c1345 * tmp1
- dt * ty1 * dy5;
/*--------------------------------------------------------------------
c form the third block sub-diagonal
--------------------------------------------------------------------*/
tmp1 = 1.0 / u[i][j][k+1][0];
tmp2 = tmp1 * tmp1;
tmp3 = tmp1 * tmp2;
c[i][j][0][0] = - dt * tz1 * dz1;
c[i][j][0][1] = 0.0;
c[i][j][0][2] = 0.0;
c[i][j][0][3] = dt * tz2;
c[i][j][0][4] = 0.0;
c[i][j][1][0] = dt * tz2
* ( - ( u[i][j][k+1][1]*u[i][j][k+1][3] ) * tmp2 )
- dt * tz1 * ( - c34 * tmp2 * u[i][j][k+1][1] );
c[i][j][1][1] = dt * tz2 * ( u[i][j][k+1][3] * tmp1 )
- dt * tz1 * c34 * tmp1
- dt * tz1 * dz2 ;
c[i][j][1][2] = 0.0;
c[i][j][1][3] = dt * tz2 * ( u[i][j][k+1][1] * tmp1 );
c[i][j][1][4] = 0.0;
c[i][j][2][0] = dt * tz2
* ( - ( u[i][j][k+1][2]*u[i][j][k+1][3] ) * tmp2 )
- dt * tz1 * ( - c34 * tmp2 * u[i][j][k+1][2] );
c[i][j][2][1] = 0.0;
c[i][j][2][2] = dt * tz2 * ( u[i][j][k+1][3] * tmp1 )
- dt * tz1 * ( c34 * tmp1 )
- dt * tz1 * dz3;
c[i][j][2][3] = dt * tz2 * ( u[i][j][k+1][2] * tmp1 );
c[i][j][2][4] = 0.0;
c[i][j][3][0] = dt * tz2
* ( - ( u[i][j][k+1][3] * tmp1 ) *( u[i][j][k+1][3] * tmp1 )
+ 0.50 * C2
* ( ( u[i][j][k+1][1] * u[i][j][k+1][1]
+ u[i][j][k+1][2] * u[i][j][k+1][2]
+ u[i][j][k+1][3] * u[i][j][k+1][3] ) * tmp2 ) )
- dt * tz1 * ( - r43 * c34 * tmp2 * u[i][j][k+1][3] );
c[i][j][3][1] = dt * tz2
* ( - C2 * ( u[i][j][k+1][1] * tmp1 ) );
c[i][j][3][2] = dt * tz2
* ( - C2 * ( u[i][j][k+1][2] * tmp1 ) );
c[i][j][3][3] = dt * tz2 * ( 2.0 - C2 )
* ( u[i][j][k+1][3] * tmp1 )
- dt * tz1 * ( r43 * c34 * tmp1 )
- dt * tz1 * dz4;
c[i][j][3][4] = dt * tz2 * C2;
c[i][j][4][0] = dt * tz2
* ( ( C2 * ( u[i][j][k+1][1] * u[i][j][k+1][1]
+ u[i][j][k+1][2] * u[i][j][k+1][2]
+ u[i][j][k+1][3] * u[i][j][k+1][3] ) * tmp2
- C1 * ( u[i][j][k+1][4] * tmp1 ) )
* ( u[i][j][k+1][3] * tmp1 ) )
- dt * tz1
* ( - ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k+1][1]) )
- ( c34 - c1345 ) * tmp3 * ( pow2(u[i][j][k+1][2]) )
- ( r43*c34 - c1345 )* tmp3 * ( pow2(u[i][j][k+1][3]) )
- c1345 * tmp2 * u[i][j][k+1][4] );
c[i][j][4][1] = dt * tz2
* ( - C2 * ( u[i][j][k+1][1]*u[i][j][k+1][3] ) * tmp2 )
- dt * tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k+1][1];
c[i][j][4][2] = dt * tz2
* ( - C2 * ( u[i][j][k+1][2]*u[i][j][k+1][3] ) * tmp2 )
- dt * tz1 * ( c34 - c1345 ) * tmp2 * u[i][j][k+1][2];
c[i][j][4][3] = dt * tz2
* ( C1 * ( u[i][j][k+1][4] * tmp1 )
- 0.50 * C2
* ( ( u[i][j][k+1][1]*u[i][j][k+1][1]
+ u[i][j][k+1][2]*u[i][j][k+1][2]
+ 3.0*u[i][j][k+1][3]*u[i][j][k+1][3] ) * tmp2 ) )
- dt * tz1 * ( r43*c34 - c1345 ) * tmp2 * u[i][j][k+1][3];
c[i][j][4][4] = dt * tz2
* ( C1 * ( u[i][j][k+1][3] * tmp1 ) )
- dt * tz1 * c1345 * tmp1
- dt * tz1 * dz5;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2, tmp3)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | -----------------*/
int i, j, k, m;
double sum0=0.0, sum1=0.0, sum2=0.0, sum3=0.0, sum4=0.0;
<LOOP-START>for (m = 0; m < 5; m++) {
sum[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 reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0) | 100 | um3=0.0, sum4=0.0;
#pragma omp parallel for
for (m = 0; m < 5; m++) {
sum[m] = 0.0;
}
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0)
for (j = jst; j <= jend; j++) {
#pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0)
for (k = 1; k <= nz0-2; k++) {
sum0 = sum0 + v[i][j][k][0] * v[i][j][k][0];
sum1 = sum1 + v[i][j][k][1] * v[i][j][k][1];
sum2 = sum2 + v[i][j][k][2] * v[i][j][k][2];
sum3 = sum3 + v[i][j][k][3] * v[i][j][k][3];
sum4 = sum4 + v[i][j][k][4] * v[i][j][k][4];
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0) | 100 | +:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0)
for (i = ist; i <= iend; i++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0)
for (k = 1; k <= nz0-2; k++) {
sum0 = sum0 + v[i][j][k][0] * v[i][j][k][0];
sum1 = sum1 + v[i][j][k][1] * v[i][j][k][1];
sum2 = sum2 + v[i][j][k][2] * v[i][j][k][2];
sum3 = sum3 + v[i][j][k][3] * v[i][j][k][3];
sum4 = sum4 + v[i][j][k][4] * v[i][j][k][4];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0) | 100 | 3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0)
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k <= nz0-2; k++) {
sum0 = sum0 + v[i][j][k][0] * v[i][j][k][0];
sum1 = sum1 + v[i][j][k][1] * v[i][j][k][1];
sum2 = sum2 + v[i][j][k][2] * v[i][j][k][2];
sum3 = sum3 + v[i][j][k][3] * v[i][j][k][3];
sum4 = sum4 + v[i][j][k][4] * v[i][j][k][4];
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:sum4) reduction(+:sum3) reduction(+:sum2) reduction(+:sum1) reduction(+:sum0) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | 0;
sum[1] += sum1;
sum[2] += sum2;
sum[3] += sum3;
sum[4] += sum4;
}
<LOOP-START>for (m = 0; m < 5; m++) {
sum[m] = sqrt ( sum[m] / ( (nx0-2)*(ny0-2)*(nz0-2) ) );
}<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 | -----------
c initialize
--------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i <= ISIZ2+1; i++) {
#pragma omp parallel for
for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 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 | ------------------------------*/
#pragma omp parallel for
for (i = 0; i <= ISIZ2+1; i++) {
<LOOP-START>for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 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, k) | 100 | or
for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 0.0;
}
}
<LOOP-START>for (i = ibeg; i <= ifin; i++) {
iglob = i;
#pragma omp parallel for private(iglob, k)
for (j = jbeg; j <= jfin; j++) {
jglob = j;
k = ki1;
phi1[i][j] = C2*( u[i][j][k][4]
- 0.50 * ( pow2(u[i][j][k][1])
+ pow2(u[i][j][k][2])
+ pow2(u[i][j][k][3]) )
/ u[i][j][k][0] );
k = ki2;
phi2[i][j] = C2*( u[i][j][k][4]
- 0.50 * ( pow2(u[i][j][k][1])
+ pow2(u[i][j][k][2])
+ pow2(u[i][j][k][3]) )
/ u[i][j][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob, k)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(iglob, k) | 100 |
#pragma omp parallel for private(iglob, k)
for (i = ibeg; i <= ifin; i++) {
iglob = i;
<LOOP-START>for (j = jbeg; j <= jfin; j++) {
jglob = j;
k = ki1;
phi1[i][j] = C2*( u[i][j][k][4]
- 0.50 * ( pow2(u[i][j][k][1])
+ pow2(u[i][j][k][2])
+ pow2(u[i][j][k][3]) )
/ u[i][j][k][0] );
k = ki2;
phi2[i][j] = C2*( u[i][j][k][4]
- 0.50 * ( pow2(u[i][j][k][1])
+ pow2(u[i][j][k][2])
+ pow2(u[i][j][k][3]) )
/ u[i][j][k][0] );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob, k) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for reduction(+:frc1) | 100 | w2(u[i][j][k][2])
+ pow2(u[i][j][k][3]) )
/ u[i][j][k][0] );
}
}
frc1 = 0.0;
<LOOP-START>for (i = ibeg; i <= ifin1; i++) {
#pragma omp parallel for reduction(+:frc1)
for (j = jbeg; j <= jfin1; j++) {
frc1 = frc1 + ( phi1[i][j]
+ phi1[i+1][j]
+ phi1[i][j+1]
+ phi1[i+1][j+1]
+ phi2[i][j]
+ phi2[i+1][j]
+ phi2[i][j+1]
+ phi2[i+1][j+1] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:frc1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for reduction(+:frc1) | 100 | frc1 = 0.0;
#pragma omp parallel for reduction(+:frc1)
for (i = ibeg; i <= ifin1; i++) {
<LOOP-START>for (j = jbeg; j <= jfin1; j++) {
frc1 = frc1 + ( phi1[i][j]
+ phi1[i+1][j]
+ phi1[i][j+1]
+ phi1[i+1][j+1]
+ phi2[i][j]
+ phi2[i+1][j]
+ phi2[i][j+1]
+ phi2[i+1][j+1] );
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:frc1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | -----------
c initialize
--------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i <= ISIZ2+1; i++) {
#pragma omp parallel for
for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 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 | ------------------------------*/
#pragma omp parallel for
for (i = 0; i <= ISIZ2+1; i++) {
<LOOP-START>for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 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) | 100 | phi1[i][k] = 0.0;
phi2[i][k] = 0.0;
}
}
jglob = jbeg;
if (jglob == ji1) {
<LOOP-START>for (i = ibeg; i <= ifin; i++) {
iglob = i;
#pragma omp parallel for
for (k = ki1; k <= ki2; k++) {
phi1[i][k] = C2*( u[i][jbeg][k][4]
- 0.50 * ( pow2(u[i][jbeg][k][1])
+ pow2(u[i][jbeg][k][2])
+ pow2(u[i][jbeg][k][3]) )
/ u[i][jbeg][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | ragma omp parallel for private(iglob)
for (i = ibeg; i <= ifin; i++) {
iglob = i;
<LOOP-START>for (k = ki1; k <= ki2; k++) {
phi1[i][k] = C2*( u[i][jbeg][k][4]
- 0.50 * ( pow2(u[i][jbeg][k][1])
+ pow2(u[i][jbeg][k][2])
+ pow2(u[i][jbeg][k][3]) )
/ u[i][jbeg][k][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) | 100 | g][k][3]) )
/ u[i][jbeg][k][0] );
}
}
}
jglob = jfin;
if (jglob == ji2) {
<LOOP-START>for (i = ibeg; i <= ifin; i++) {
iglob = i;
#pragma omp parallel for
for (k = ki1; k <= ki2; k++) {
phi2[i][k] = C2*( u[i][jfin][k][4]
- 0.50 * ( pow2(u[i][jfin][k][1])
+ pow2(u[i][jfin][k][2])
+ pow2(u[i][jfin][k][3]) )
/ u[i][jfin][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | pragma omp parallel for private(iglob)
for (i = ibeg; i <= ifin; i++) {
iglob = i;
<LOOP-START>for (k = ki1; k <= ki2; k++) {
phi2[i][k] = C2*( u[i][jfin][k][4]
- 0.50 * ( pow2(u[i][jfin][k][1])
+ pow2(u[i][jfin][k][2])
+ pow2(u[i][jfin][k][3]) )
/ u[i][jfin][k][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 reduction(+:frc2) | 100 | + pow2(u[i][jfin][k][3]) )
/ u[i][jfin][k][0] );
}
}
}
frc2 = 0.0;
<LOOP-START>for (i = ibeg; i <= ifin1; i++) {
#pragma omp parallel for reduction(+:frc2)
for (k = ki1; k <= ki2-1; k++) {
frc2 = frc2 + ( phi1[i][k]
+ phi1[i+1][k]
+ phi1[i][k+1]
+ phi1[i+1][k+1]
+ phi2[i][k]
+ phi2[i+1][k]
+ phi2[i][k+1]
+ phi2[i+1][k+1] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:frc2) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for reduction(+:frc2) | 100 | frc2 = 0.0;
#pragma omp parallel for reduction(+:frc2)
for (i = ibeg; i <= ifin1; i++) {
<LOOP-START>for (k = ki1; k <= ki2-1; k++) {
frc2 = frc2 + ( phi1[i][k]
+ phi1[i+1][k]
+ phi1[i][k+1]
+ phi1[i+1][k+1]
+ phi2[i][k]
+ phi2[i+1][k]
+ phi2[i][k+1]
+ phi2[i+1][k+1] );
}<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:frc2) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | -----------
c initialize
--------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i <= ISIZ2+1; i++) {
#pragma omp parallel for firstprivate(i )
for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 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 firstprivate(i ) | 100 | -------------------------------*/
#pragma omp parallel for
for (i = 0; i <= ISIZ2+1; i++) {
<LOOP-START>for (k = 0; k <= ISIZ3+1; k++) {
phi1[i][k] = 0.0;
phi2[i][k] = 0.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for firstprivate(i ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | im1, u51im1;
double u21jm1, u31jm1, u41jm1, u51jm1;
double u21km1, u31km1, u41km1, u51km1;
<LOOP-START>for (i = 0; i <= nx-1; i++) {
#pragma omp parallel for
for (j = 0; j <= ny-1; j++) {
#pragma omp parallel for
for (k = 0; k <= nz-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = - frct[i][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 | 100 | e u21km1, u31km1, u41km1, u51km1;
#pragma omp parallel for
for (i = 0; i <= nx-1; i++) {
<LOOP-START>for (j = 0; j <= ny-1; j++) {
#pragma omp parallel for
for (k = 0; k <= nz-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = - frct[i][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 | 100 | or (i = 0; i <= nx-1; i++) {
#pragma omp parallel for
for (j = 0; j <= ny-1; j++) {
<LOOP-START>for (k = 0; k <= nz-1; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = - frct[i][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 | 100 | = 0; j <= ny-1; j++) {
#pragma omp parallel for
for (k = 0; k <= nz-1; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = - frct[i][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 | 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
for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = u[i][j][k][1];
u21 = u[i][j][k][1] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u21 + C2 *
( u[i][j][k][4] - q );
flux[i][j][k][2] = u[i][j][k][2] * u21;
flux[i][j][k][3] = u[i][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * u[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
for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = u[i][j][k][1];
u21 = u[i][j][k][1] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u21 + C2 *
( u[i][j][k][4] - q );
flux[i][j][k][2] = u[i][j][k][2] * u21;
flux[i][j][k][3] = u[i][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * u[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 | or (i = L1; i <= L2; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = u[i][j][k][1];
u21 = u[i][j][k][1] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u21 + C2 *
( u[i][j][k][4] - q );
flux[i][j][k][2] = u[i][j][k][2] * u21;
flux[i][j][k][3] = u[i][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * u[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(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, ist1, iend1) | 100 | ][j][k][3] * u21;
flux[i][j][k][4] = ( C1 * u[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, ist1, iend1)
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}
L2 = nx-1;
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1)
for (i = ist; i <= L2; i++) {
tmp = 1.0 / u[i][j][k][0];
u21i = tmp * u[i][j][k][1];
u31i = tmp * u[i][j][k][2];
u41i = tmp * u[i][j][k][3];
u51i = tmp * u[i][j][k][4];
tmp = 1.0 / u[i-1][j][k][0];
u21im1 = tmp * u[i-1][j][k][1];
u31im1 = tmp * u[i-1][j][k][2];
u41im1 = tmp * u[i-1][j][k][3];
u51im1 = tmp * u[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 * ( ( pow2(u21i) + pow2(u31i) + pow2(u41i) )
- ( pow2(u21im1) + pow2(u31im1) + pow2(u41im1) ) )
+ (1.0/6.0)
* tx3 * ( pow2(u21i) - pow2(u21im1) )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dx1 * tx1 * ( u[i-1][j][k][0]
- 2.0 * u[i][j][k][0]
+ u[i+1][j][k][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][1] - flux[i][j][k][1] )
+ dx2 * tx1 * ( u[i-1][j][k][1]
- 2.0 * u[i][j][k][1]
+ u[i+1][j][k][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][2] - flux[i][j][k][2] )
+ dx3 * tx1 * ( u[i-1][j][k][2]
- 2.0 * u[i][j][k][2]
+ u[i+1][j][k][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][3] - flux[i][j][k][3] )
+ dx4 * tx1 * ( u[i-1][j][k][3]
- 2.0 * u[i][j][k][3]
+ u[i+1][j][k][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][4] - flux[i][j][k][4] )
+ dx5 * tx1 * ( u[i-1][j][k][4]
- 2.0 * u[i][j][k][4]
+ u[i+1][j][k][4] );
}
/*--------------------------------------------------------------------
c Fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
rsd[1][j][k][m] = rsd[1][j][k][m]
- dssp * ( + 5.0 * u[1][j][k][m]
- 4.0 * u[2][j][k][m]
+ u[3][j][k][m] );
rsd[2][j][k][m] = rsd[2][j][k][m]
- dssp * ( - 4.0 * u[1][j][k][m]
+ 6.0 * u[2][j][k][m]
- 4.0 * u[3][j][k][m]
+ u[4][j][k][m] );
}
ist1 = 3;
iend1 = nx - 4;
for (i = ist1; i <= iend1; i++) {
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- dssp * ( u[i-2][j][k][m]
- 4.0 * u[i-1][j][k][m]
+ 6.0 * u[i][j][k][m]
- 4.0 * u[i+1][j][k][m]
+ u[i+2][j][k][m] );
}
}
for (m = 0; m < 5; m++) {
rsd[nx-3][j][k][m] = rsd[nx-3][j][k][m]
- dssp * ( u[nx-5][j][k][m]
- 4.0 * u[nx-4][j][k][m]
+ 6.0 * u[nx-3][j][k][m]
- 4.0 * u[nx-2][j][k][m] );
rsd[nx-2][j][k][m] = rsd[nx-2][j][k][m]
- dssp * ( u[nx-4][j][k][m]
- 4.0 * u[nx-3][j][k][m]
+ 5.0 * u[nx-2][j][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, ist1, iend1)<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, ist1, iend1) | 100 | 31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, ist1, iend1)
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}
L2 = nx-1;
#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1)
for (i = ist; i <= L2; i++) {
tmp = 1.0 / u[i][j][k][0];
u21i = tmp * u[i][j][k][1];
u31i = tmp * u[i][j][k][2];
u41i = tmp * u[i][j][k][3];
u51i = tmp * u[i][j][k][4];
tmp = 1.0 / u[i-1][j][k][0];
u21im1 = tmp * u[i-1][j][k][1];
u31im1 = tmp * u[i-1][j][k][2];
u41im1 = tmp * u[i-1][j][k][3];
u51im1 = tmp * u[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 * ( ( pow2(u21i) + pow2(u31i) + pow2(u41i) )
- ( pow2(u21im1) + pow2(u31im1) + pow2(u41im1) ) )
+ (1.0/6.0)
* tx3 * ( pow2(u21i) - pow2(u21im1) )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dx1 * tx1 * ( u[i-1][j][k][0]
- 2.0 * u[i][j][k][0]
+ u[i+1][j][k][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][1] - flux[i][j][k][1] )
+ dx2 * tx1 * ( u[i-1][j][k][1]
- 2.0 * u[i][j][k][1]
+ u[i+1][j][k][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][2] - flux[i][j][k][2] )
+ dx3 * tx1 * ( u[i-1][j][k][2]
- 2.0 * u[i][j][k][2]
+ u[i+1][j][k][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][3] - flux[i][j][k][3] )
+ dx4 * tx1 * ( u[i-1][j][k][3]
- 2.0 * u[i][j][k][3]
+ u[i+1][j][k][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][4] - flux[i][j][k][4] )
+ dx5 * tx1 * ( u[i-1][j][k][4]
- 2.0 * u[i][j][k][4]
+ u[i+1][j][k][4] );
}
/*--------------------------------------------------------------------
c Fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
rsd[1][j][k][m] = rsd[1][j][k][m]
- dssp * ( + 5.0 * u[1][j][k][m]
- 4.0 * u[2][j][k][m]
+ u[3][j][k][m] );
rsd[2][j][k][m] = rsd[2][j][k][m]
- dssp * ( - 4.0 * u[1][j][k][m]
+ 6.0 * u[2][j][k][m]
- 4.0 * u[3][j][k][m]
+ u[4][j][k][m] );
}
ist1 = 3;
iend1 = nx - 4;
for (i = ist1; i <= iend1; i++) {
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- dssp * ( u[i-2][j][k][m]
- 4.0 * u[i-1][j][k][m]
+ 6.0 * u[i][j][k][m]
- 4.0 * u[i+1][j][k][m]
+ u[i+2][j][k][m] );
}
}
for (m = 0; m < 5; m++) {
rsd[nx-3][j][k][m] = rsd[nx-3][j][k][m]
- dssp * ( u[nx-5][j][k][m]
- 4.0 * u[nx-4][j][k][m]
+ 6.0 * u[nx-3][j][k][m]
- 4.0 * u[nx-2][j][k][m] );
rsd[nx-2][j][k][m] = rsd[nx-2][j][k][m]
- dssp * ( u[nx-4][j][k][m]
- 4.0 * u[nx-3][j][k][m]
+ 5.0 * u[nx-2][j][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1, ist1, iend1)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | u41i, u51i, u21im1, u31im1, u41im1, u51im1, ist1, iend1)
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++) {
rsd[i][j][k][m] = rsd[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 | 100 | (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[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) | 100 | k][m]
- tx2 * ( flux[i+1][j][k][m] - flux[i-1][j][k][m] );
}
}
L2 = nx-1;
<LOOP-START>for (i = ist; i <= L2; i++) {
tmp = 1.0 / u[i][j][k][0];
u21i = tmp * u[i][j][k][1];
u31i = tmp * u[i][j][k][2];
u41i = tmp * u[i][j][k][3];
u51i = tmp * u[i][j][k][4];
tmp = 1.0 / u[i-1][j][k][0];
u21im1 = tmp * u[i-1][j][k][1];
u31im1 = tmp * u[i-1][j][k][2];
u41im1 = tmp * u[i-1][j][k][3];
u51im1 = tmp * u[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 * ( ( pow2(u21i) + pow2(u31i) + pow2(u41i) )
- ( pow2(u21im1) + pow2(u31im1) + pow2(u41im1) ) )
+ (1.0/6.0)
* tx3 * ( pow2(u21i) - pow2(u21im1) )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21i, u31i, u41i, u51i, u21im1, u31im1, u41im1, u51im1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | .0)
* tx3 * ( pow2(u21i) - pow2(u21im1) )
+ C1 * C5 * tx3 * ( u51i - u51im1 );
}
<LOOP-START>for (i = ist; i <= iend; i++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dx1 * tx1 * ( u[i-1][j][k][0]
- 2.0 * u[i][j][k][0]
+ u[i+1][j][k][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][1] - flux[i][j][k][1] )
+ dx2 * tx1 * ( u[i-1][j][k][1]
- 2.0 * u[i][j][k][1]
+ u[i+1][j][k][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][2] - flux[i][j][k][2] )
+ dx3 * tx1 * ( u[i-1][j][k][2]
- 2.0 * u[i][j][k][2]
+ u[i+1][j][k][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][3] - flux[i][j][k][3] )
+ dx4 * tx1 * ( u[i-1][j][k][3]
- 2.0 * u[i][j][k][3]
+ u[i+1][j][k][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ tx3 * C3 * C4 * ( flux[i+1][j][k][4] - flux[i][j][k][4] )
+ dx5 * tx1 * ( u[i-1][j][k][4]
- 2.0 * u[i][j][k][4]
+ u[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)
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] = u[i][j][k][2];
u31 = u[i][j][k][2] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u31;
flux[i][j][k][2] = u[i][j][k][2] * u31 + C2 * (u[i][j][k][4]-q);
flux[i][j][k][3] = u[i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * u[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>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] = u[i][j][k][2];
u31 = u[i][j][k][2] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u31;
flux[i][j][k][2] = u[i][j][k][2] * u31 + C2 * (u[i][j][k][4]-q);
flux[i][j][k][3] = u[i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * u[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 | <= iend; i++) {
#pragma omp parallel for private(u31, q)
for (j = L1; j <= L2; j++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
flux[i][j][k][0] = u[i][j][k][2];
u31 = u[i][j][k][2] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u31;
flux[i][j][k][2] = u[i][j][k][2] * u31 + C2 * (u[i][j][k][4]-q);
flux[i][j][k][3] = u[i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * u[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(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1) | 100 | [i][j][k][3] * u31;
flux[i][j][k][4] = ( C1 * u[i][j][k][4] - C2 * q ) * u31;
}
}
}
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1)
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[i][j-1][k][m] );
}
}
L2 = ny-1;
#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (j = jst; j <= L2; j++) {
tmp = 1.0 / u[i][j][k][0];
u21j = tmp * u[i][j][k][1];
u31j = tmp * u[i][j][k][2];
u41j = tmp * u[i][j][k][3];
u51j = tmp * u[i][j][k][4];
tmp = 1.0 / u[i][j-1][k][0];
u21jm1 = tmp * u[i][j-1][k][1];
u31jm1 = tmp * u[i][j-1][k][2];
u41jm1 = tmp * u[i][j-1][k][3];
u51jm1 = tmp * u[i][j-1][k][4];
flux[i][j][k][1] = ty3 * ( u21j - u21jm1 );
flux[i][j][k][2] = (4.0/3.0) * ty3 * (u31j-u31jm1);
flux[i][j][k][3] = ty3 * ( u41j - u41jm1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* ty3 * ( ( pow2(u21j) + pow2(u31j) + pow2(u41j) )
- ( pow2(u21jm1) + pow2(u31jm1) + pow2(u41jm1) ) )
+ (1.0/6.0)
* ty3 * ( pow2(u31j) - pow2(u31jm1) )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dy1 * ty1 * ( u[i][j-1][k][0]
- 2.0 * u[i][j][k][0]
+ u[i][j+1][k][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][1] - flux[i][j][k][1] )
+ dy2 * ty1 * ( u[i][j-1][k][1]
- 2.0 * u[i][j][k][1]
+ u[i][j+1][k][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][2] - flux[i][j][k][2] )
+ dy3 * ty1 * ( u[i][j-1][k][2]
- 2.0 * u[i][j][k][2]
+ u[i][j+1][k][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][3] - flux[i][j][k][3] )
+ dy4 * ty1 * ( u[i][j-1][k][3]
- 2.0 * u[i][j][k][3]
+ u[i][j+1][k][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][4] - flux[i][j][k][4] )
+ dy5 * ty1 * ( u[i][j-1][k][4]
- 2.0 * u[i][j][k][4]
+ u[i][j+1][k][4] );
}
/*--------------------------------------------------------------------
c fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
rsd[i][1][k][m] = rsd[i][1][k][m]
- dssp * ( + 5.0 * u[i][1][k][m]
- 4.0 * u[i][2][k][m]
+ u[i][3][k][m] );
rsd[i][2][k][m] = rsd[i][2][k][m]
- dssp * ( - 4.0 * u[i][1][k][m]
+ 6.0 * u[i][2][k][m]
- 4.0 * u[i][3][k][m]
+ u[i][4][k][m] );
}
jst1 = 3;
jend1 = ny - 4;
for (j = jst1; j <= jend1; j++) {
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[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] );
}
}
for (m = 0; m < 5; m++) {
rsd[i][ny-3][k][m] = rsd[i][ny-3][k][m]
- dssp * ( u[i][ny-5][k][m]
- 4.0 * u[i][ny-4][k][m]
+ 6.0 * u[i][ny-3][k][m]
- 4.0 * u[i][ny-2][k][m] );
rsd[i][ny-2][k][m] = rsd[i][ny-2][k][m]
- dssp * ( u[i][ny-4][k][m]
- 4.0 * u[i][ny-3][k][m]
+ 5.0 * u[i][ny-2][k][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1) | 100 | 1j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1)
for (i = ist; i <= iend; i++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[i][j-1][k][m] );
}
}
L2 = ny-1;
#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1)
for (j = jst; j <= L2; j++) {
tmp = 1.0 / u[i][j][k][0];
u21j = tmp * u[i][j][k][1];
u31j = tmp * u[i][j][k][2];
u41j = tmp * u[i][j][k][3];
u51j = tmp * u[i][j][k][4];
tmp = 1.0 / u[i][j-1][k][0];
u21jm1 = tmp * u[i][j-1][k][1];
u31jm1 = tmp * u[i][j-1][k][2];
u41jm1 = tmp * u[i][j-1][k][3];
u51jm1 = tmp * u[i][j-1][k][4];
flux[i][j][k][1] = ty3 * ( u21j - u21jm1 );
flux[i][j][k][2] = (4.0/3.0) * ty3 * (u31j-u31jm1);
flux[i][j][k][3] = ty3 * ( u41j - u41jm1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* ty3 * ( ( pow2(u21j) + pow2(u31j) + pow2(u41j) )
- ( pow2(u21jm1) + pow2(u31jm1) + pow2(u41jm1) ) )
+ (1.0/6.0)
* ty3 * ( pow2(u31j) - pow2(u31jm1) )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dy1 * ty1 * ( u[i][j-1][k][0]
- 2.0 * u[i][j][k][0]
+ u[i][j+1][k][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][1] - flux[i][j][k][1] )
+ dy2 * ty1 * ( u[i][j-1][k][1]
- 2.0 * u[i][j][k][1]
+ u[i][j+1][k][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][2] - flux[i][j][k][2] )
+ dy3 * ty1 * ( u[i][j-1][k][2]
- 2.0 * u[i][j][k][2]
+ u[i][j+1][k][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][3] - flux[i][j][k][3] )
+ dy4 * ty1 * ( u[i][j-1][k][3]
- 2.0 * u[i][j][k][3]
+ u[i][j+1][k][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][4] - flux[i][j][k][4] )
+ dy5 * ty1 * ( u[i][j-1][k][4]
- 2.0 * u[i][j][k][4]
+ u[i][j+1][k][4] );
}
/*--------------------------------------------------------------------
c fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
rsd[i][1][k][m] = rsd[i][1][k][m]
- dssp * ( + 5.0 * u[i][1][k][m]
- 4.0 * u[i][2][k][m]
+ u[i][3][k][m] );
rsd[i][2][k][m] = rsd[i][2][k][m]
- dssp * ( - 4.0 * u[i][1][k][m]
+ 6.0 * u[i][2][k][m]
- 4.0 * u[i][3][k][m]
+ u[i][4][k][m] );
}
jst1 = 3;
jend1 = ny - 4;
for (j = jst1; j <= jend1; j++) {
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[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] );
}
}
for (m = 0; m < 5; m++) {
rsd[i][ny-3][k][m] = rsd[i][ny-3][k][m]
- dssp * ( u[i][ny-5][k][m]
- 4.0 * u[i][ny-4][k][m]
+ 6.0 * u[i][ny-3][k][m]
- 4.0 * u[i][ny-2][k][m] );
rsd[i][ny-2][k][m] = rsd[i][ny-2][k][m]
- dssp * ( u[i][ny-4][k][m]
- 4.0 * u[i][ny-3][k][m]
+ 5.0 * u[i][ny-2][k][m] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | 1j, u51j, u21jm1, u31jm1, u41jm1, u51jm1, jst1, jend1)
for (k = 1; k <= nz - 2; k++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[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/LU/lu.c | #pragma omp parallel for | 100 | (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[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/LU/lu.c | #pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1) | 100 | [k][m]
- ty2 * ( flux[i][j+1][k][m] - flux[i][j-1][k][m] );
}
}
L2 = ny-1;
<LOOP-START>for (j = jst; j <= L2; j++) {
tmp = 1.0 / u[i][j][k][0];
u21j = tmp * u[i][j][k][1];
u31j = tmp * u[i][j][k][2];
u41j = tmp * u[i][j][k][3];
u51j = tmp * u[i][j][k][4];
tmp = 1.0 / u[i][j-1][k][0];
u21jm1 = tmp * u[i][j-1][k][1];
u31jm1 = tmp * u[i][j-1][k][2];
u41jm1 = tmp * u[i][j-1][k][3];
u51jm1 = tmp * u[i][j-1][k][4];
flux[i][j][k][1] = ty3 * ( u21j - u21jm1 );
flux[i][j][k][2] = (4.0/3.0) * ty3 * (u31j-u31jm1);
flux[i][j][k][3] = ty3 * ( u41j - u41jm1 );
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* ty3 * ( ( pow2(u21j) + pow2(u31j) + pow2(u41j) )
- ( pow2(u21jm1) + pow2(u31jm1) + pow2(u41jm1) ) )
+ (1.0/6.0)
* ty3 * ( pow2(u31j) - pow2(u31jm1) )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21j, u31j, u41j, u51j, u21jm1, u31jm1, u41jm1, u51jm1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | .0)
* ty3 * ( pow2(u31j) - pow2(u31jm1) )
+ C1 * C5 * ty3 * ( u51j - u51jm1 );
}
<LOOP-START>for (j = jst; j <= jend; j++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dy1 * ty1 * ( u[i][j-1][k][0]
- 2.0 * u[i][j][k][0]
+ u[i][j+1][k][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][1] - flux[i][j][k][1] )
+ dy2 * ty1 * ( u[i][j-1][k][1]
- 2.0 * u[i][j][k][1]
+ u[i][j+1][k][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][2] - flux[i][j][k][2] )
+ dy3 * ty1 * ( u[i][j-1][k][2]
- 2.0 * u[i][j][k][2]
+ u[i][j+1][k][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][3] - flux[i][j][k][3] )
+ dy4 * ty1 * ( u[i][j-1][k][3]
- 2.0 * u[i][j][k][3]
+ u[i][j+1][k][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ ty3 * C3 * C4 * ( flux[i][j+1][k][4] - flux[i][j][k][4] )
+ dy5 * ty1 * ( u[i][j-1][k][4]
- 2.0 * u[i][j][k][4]
+ u[i][j+1][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(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1, u41, q) | 100 | direction flux differences
--------------------------------------------------------------------*/
<LOOP-START>for (i = ist; i <= iend; i++) {
for (j = jst; j <= jend; j++) {
#pragma omp parallel for private(u41, q)
for (k = 0; k <= nz-1; k++) {
flux[i][j][k][0] = u[i][j][k][3];
u41 = u[i][j][k][3] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u41;
flux[i][j][k][2] = u[i][j][k][2] * u41;
flux[i][j][k][3] = u[i][j][k][3] * u41 + C2 * (u[i][j][k][4]-q);
flux[i][j][k][4] = ( C1 * u[i][j][k][4] - C2 * q ) * u41;
}
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[i][j][k-1][m] );
}
}
#pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1)
for (k = 1; k <= nz-1; k++) {
tmp = 1.0 / u[i][j][k][0];
u21k = tmp * u[i][j][k][1];
u31k = tmp * u[i][j][k][2];
u41k = tmp * u[i][j][k][3];
u51k = tmp * u[i][j][k][4];
tmp = 1.0 / u[i][j][k-1][0];
u21km1 = tmp * u[i][j][k-1][1];
u31km1 = tmp * u[i][j][k-1][2];
u41km1 = tmp * u[i][j][k-1][3];
u51km1 = tmp * u[i][j][k-1][4];
flux[i][j][k][1] = tz3 * ( u21k - u21km1 );
flux[i][j][k][2] = tz3 * ( u31k - u31km1 );
flux[i][j][k][3] = (4.0/3.0) * tz3 * (u41k-u41km1);
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tz3 * ( ( pow2(u21k) + pow2(u31k) + pow2(u41k) )
- ( pow2(u21km1) + pow2(u31km1) + pow2(u41km1) ) )
+ (1.0/6.0)
* tz3 * ( pow2(u41k) - pow2(u41km1) )
+ C1 * C5 * tz3 * ( u51k - u51km1 );
}
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dz1 * tz1 * ( u[i][j][k-1][0]
- 2.0 * u[i][j][k][0]
+ u[i][j][k+1][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][1] - flux[i][j][k][1] )
+ dz2 * tz1 * ( u[i][j][k-1][1]
- 2.0 * u[i][j][k][1]
+ u[i][j][k+1][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][2] - flux[i][j][k][2] )
+ dz3 * tz1 * ( u[i][j][k-1][2]
- 2.0 * u[i][j][k][2]
+ u[i][j][k+1][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][3] - flux[i][j][k][3] )
+ dz4 * tz1 * ( u[i][j][k-1][3]
- 2.0 * u[i][j][k][3]
+ u[i][j][k+1][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][4] - flux[i][j][k][4] )
+ dz5 * tz1 * ( u[i][j][k-1][4]
- 2.0 * u[i][j][k][4]
+ u[i][j][k+1][4] );
}
/*--------------------------------------------------------------------
c fourth-order dissipation
--------------------------------------------------------------------*/
for (m = 0; m < 5; m++) {
rsd[i][j][1][m] = rsd[i][j][1][m]
- dssp * ( + 5.0 * u[i][j][1][m]
- 4.0 * u[i][j][2][m]
+ u[i][j][3][m] );
rsd[i][j][2][m] = rsd[i][j][2][m]
- dssp * ( - 4.0 * u[i][j][1][m]
+ 6.0 * u[i][j][2][m]
- 4.0 * u[i][j][3][m]
+ u[i][j][4][m] );
}
#pragma omp parallel for
for (k = 3; k <= nz - 4; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[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] );
}
}
for (m = 0; m < 5; m++) {
rsd[i][j][nz-3][m] = rsd[i][j][nz-3][m]
- dssp * ( u[i][j][nz-5][m]
- 4.0 * u[i][j][nz-4][m]
+ 6.0 * u[i][j][nz-3][m]
- 4.0 * u[i][j][nz-2][m] );
rsd[i][j][nz-2][m] = rsd[i][j][nz-2][m]
- dssp * ( u[i][j][nz-4][m]
- 4.0 * u[i][j][nz-3][m]
+ 5.0 * u[i][j][nz-2][m] );
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1, u41, q) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(u41, q) | 100 | 41km1, u51km1, u41, q)
for (i = ist; i <= iend; i++) {
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 0; k <= nz-1; k++) {
flux[i][j][k][0] = u[i][j][k][3];
u41 = u[i][j][k][3] / u[i][j][k][0];
q = 0.50 * ( u[i][j][k][1] * u[i][j][k][1]
+ u[i][j][k][2] * u[i][j][k][2]
+ u[i][j][k][3] * u[i][j][k][3] )
/ u[i][j][k][0];
flux[i][j][k][1] = u[i][j][k][1] * u41;
flux[i][j][k][2] = u[i][j][k][2] * u41;
flux[i][j][k][3] = u[i][j][k][3] * u41 + C2 * (u[i][j][k][4]-q);
flux[i][j][k][4] = ( C1 * u[i][j][k][4] - C2 * q ) * u41;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(u41, q) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | + C2 * (u[i][j][k][4]-q);
flux[i][j][k][4] = ( C1 * u[i][j][k][4] - C2 * q ) * u41;
}
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[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/LU/lu.c | #pragma omp parallel for | 100 | - C2 * q ) * u41;
}
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[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/LU/lu.c | #pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1) | 100 | ][m] = rsd[i][j][k][m]
- tz2 * ( flux[i][j][k+1][m] - flux[i][j][k-1][m] );
}
}
<LOOP-START>for (k = 1; k <= nz-1; k++) {
tmp = 1.0 / u[i][j][k][0];
u21k = tmp * u[i][j][k][1];
u31k = tmp * u[i][j][k][2];
u41k = tmp * u[i][j][k][3];
u51k = tmp * u[i][j][k][4];
tmp = 1.0 / u[i][j][k-1][0];
u21km1 = tmp * u[i][j][k-1][1];
u31km1 = tmp * u[i][j][k-1][2];
u41km1 = tmp * u[i][j][k-1][3];
u51km1 = tmp * u[i][j][k-1][4];
flux[i][j][k][1] = tz3 * ( u21k - u21km1 );
flux[i][j][k][2] = tz3 * ( u31k - u31km1 );
flux[i][j][k][3] = (4.0/3.0) * tz3 * (u41k-u41km1);
flux[i][j][k][4] = 0.50 * ( 1.0 - C1*C5 )
* tz3 * ( ( pow2(u21k) + pow2(u31k) + pow2(u41k) )
- ( pow2(u21km1) + pow2(u31km1) + pow2(u41km1) ) )
+ (1.0/6.0)
* tz3 * ( pow2(u41k) - pow2(u41km1) )
+ C1 * C5 * tz3 * ( u51k - u51km1 );
}<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp, u21k, u31k, u41k, u51k, u21km1, u31km1, u41km1, u51km1) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | .0)
* tz3 * ( pow2(u41k) - pow2(u41km1) )
+ C1 * C5 * tz3 * ( u51k - u51km1 );
}
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
rsd[i][j][k][0] = rsd[i][j][k][0]
+ dz1 * tz1 * ( u[i][j][k-1][0]
- 2.0 * u[i][j][k][0]
+ u[i][j][k+1][0] );
rsd[i][j][k][1] = rsd[i][j][k][1]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][1] - flux[i][j][k][1] )
+ dz2 * tz1 * ( u[i][j][k-1][1]
- 2.0 * u[i][j][k][1]
+ u[i][j][k+1][1] );
rsd[i][j][k][2] = rsd[i][j][k][2]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][2] - flux[i][j][k][2] )
+ dz3 * tz1 * ( u[i][j][k-1][2]
- 2.0 * u[i][j][k][2]
+ u[i][j][k+1][2] );
rsd[i][j][k][3] = rsd[i][j][k][3]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][3] - flux[i][j][k][3] )
+ dz4 * tz1 * ( u[i][j][k-1][3]
- 2.0 * u[i][j][k][3]
+ u[i][j][k+1][3] );
rsd[i][j][k][4] = rsd[i][j][k][4]
+ tz3 * C3 * C4 * ( flux[i][j][k+1][4] - flux[i][j][k][4] )
+ dz5 * tz1 * ( u[i][j][k-1][4]
- 2.0 * u[i][j][k][4]
+ u[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 | 6.0 * u[i][j][2][m]
- 4.0 * u[i][j][3][m]
+ u[i][j][4][m] );
}
<LOOP-START>for (k = 3; k <= nz - 4; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[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/LU/lu.c | #pragma omp parallel for | 100 | u[i][j][4][m] );
}
#pragma omp parallel for
for (k = 3; k <= nz - 4; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = rsd[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/LU/lu.c | #pragma omp parallel for private(iglob) | 100 | g the top and bottom faces
--------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i < nx; i++) {
iglob = i;
for (j = 0; j < ny; j++) {
jglob = j;
exact( iglob, jglob, 0, &u[i][j][0][0] );
exact( iglob, jglob, nz-1, &u[i][j][nz-1][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(iglob) | 100 | long north and south faces
--------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i < nx; i++) {
iglob = i;
for (k = 0; k < nz; k++) {
exact( iglob, 0, k, &u[i][0][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(iglob) | 100 | iglob = i;
for (k = 0; k < nz; k++) {
exact( iglob, 0, k, &u[i][0][k][0] );
}
}
<LOOP-START>for (i = 0; i < nx; i++) {
iglob = i;
for (k = 0; k < nz; k++) {
exact( iglob, ny0-1, k, &u[i][ny-1][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(iglob)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(jglob) | 100 | along east and west faces
--------------------------------------------------------------------*/
<LOOP-START>for (j = 0; j < ny; j++) {
jglob = j;
for (k = 0; k < nz; k++) {
exact( 0, jglob, k, &u[0][j][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(jglob)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(jglob) | 100 | jglob = j;
for (k = 0; k < nz; k++) {
exact( 0, jglob, k, &u[0][j][k][0] );
}
}
<LOOP-START>for (j = 0; j < ny; j++) {
jglob = j;
for (k = 0; k < nz; k++) {
exact( nx0-1, jglob, k, &u[nx-1][j][k][0] );
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(jglob)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(jglob, zeta, eta, iglob, xi, pxi, peta, pzeta) | 100 | i, peta, pzeta;
double ue_1jk[5],ue_nx0jk[5],ue_i1k[5],
ue_iny0k[5],ue_ij1[5],ue_ijnz[5];
<LOOP-START>for (j = 0; j < ny; j++) {
jglob = j;
for (k = 1; k < nz - 1; k++) {
zeta = ((double)k) / (nz-1);
if (jglob != 0 && jglob != ny0-1) {
eta = ( (double) (jglob) ) / (ny0-1);
for (i = 0; i < nx; i++) {
iglob = i;
if(iglob != 0 && iglob != nx0-1) {
xi = ( (double) (iglob) ) / (nx0-1);
exact (0,jglob,k,ue_1jk);
exact (nx0-1,jglob,k,ue_nx0jk);
exact (iglob,0,k,ue_i1k);
exact (iglob,ny0-1,k,ue_iny0k);
exact (iglob,jglob,0,ue_ij1);
exact (iglob,jglob,nz-1,ue_ijnz);
#pragma omp parallel for private(pxi, peta, pzeta)
for (m = 0; m < 5; m++) {
pxi = ( 1.0 - xi ) * ue_1jk[m]
+ xi * ue_nx0jk[m];
peta = ( 1.0 - eta ) * ue_i1k[m]
+ eta * ue_iny0k[m];
pzeta = ( 1.0 - zeta ) * ue_ij1[m]
+ zeta * ue_ijnz[m];
u[i][j][k][m] = pxi + peta + pzeta
- pxi * peta - peta * pzeta - pzeta * pxi
+ pxi * peta * pzeta;
}
}
}
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(jglob, zeta, eta, iglob, xi, pxi, peta, pzeta)<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for private(pxi, peta, pzeta) | 100 | b,ny0-1,k,ue_iny0k);
exact (iglob,jglob,0,ue_ij1);
exact (iglob,jglob,nz-1,ue_ijnz);
<LOOP-START>for (m = 0; m < 5; m++) {
pxi = ( 1.0 - xi ) * ue_1jk[m]
+ xi * ue_nx0jk[m];
peta = ( 1.0 - eta ) * ue_i1k[m]
+ eta * ue_iny0k[m];
pzeta = ( 1.0 - zeta ) * ue_ij1[m]
+ zeta * ue_ijnz[m];
u[i][j][k][m] = pxi + peta + pzeta
- pxi * peta - peta * pzeta - pzeta * pxi
+ pxi * peta * pzeta;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(pxi, peta, pzeta) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/LU/lu.c | #pragma omp parallel for | 100 | e, before timestepping).
--------------------------------------------------------------------*/
{
<LOOP-START>for (i = 0; i < ISIZ1; i++) {
#pragma omp parallel for
for (j = 0; j < ISIZ2; j++) {
#pragma omp parallel for
for (k = 0; k < 5; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
a[i][j][k][m] = 0.0;
b[i][j][k][m] = 0.0;
c[i][j][k][m] = 0.0;
d[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 | ------------------------------*/
{
#pragma omp parallel for
for (i = 0; i < ISIZ1; i++) {
<LOOP-START>for (j = 0; j < ISIZ2; j++) {
#pragma omp parallel for
for (k = 0; k < 5; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
a[i][j][k][m] = 0.0;
b[i][j][k][m] = 0.0;
c[i][j][k][m] = 0.0;
d[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 (i = 0; i < ISIZ1; i++) {
#pragma omp parallel for
for (j = 0; j < ISIZ2; j++) {
<LOOP-START>for (k = 0; k < 5; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
a[i][j][k][m] = 0.0;
b[i][j][k][m] = 0.0;
c[i][j][k][m] = 0.0;
d[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 < ISIZ2; j++) {
#pragma omp parallel for
for (k = 0; k < 5; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
a[i][j][k][m] = 0.0;
b[i][j][k][m] = 0.0;
c[i][j][k][m] = 0.0;
d[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 | perform SSOR iteration
--------------------------------------------------------------------*/
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = dt * rsd[i][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 | 100 | -------------------------*/
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = dt * rsd[i][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 | 100 | (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k <= nz - 2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = dt * rsd[i][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 | 100 | for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (k = 1; k <= nz - 2; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
rsd[i][j][k][m] = dt * rsd[i][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 | 100 | c update the variables
--------------------------------------------------------------------*/
<LOOP-START>for (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (k = 1; k <= nz-2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
u[i][j][k][m] = u[i][j][k][m]
+ tmp * rsd[i][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 | 100 | --------------------------*/
#pragma omp parallel for
for (i = ist; i <= iend; i++) {
<LOOP-START>for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (k = 1; k <= nz-2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
u[i][j][k][m] = u[i][j][k][m]
+ tmp * rsd[i][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 | 100 | r (i = ist; i <= iend; i++) {
#pragma omp parallel for
for (j = jst; j <= jend; j++) {
<LOOP-START>for (k = 1; k <= nz-2; k++) {
#pragma omp parallel for
for (m = 0; m < 5; m++) {
u[i][j][k][m] = u[i][j][k][m]
+ tmp * rsd[i][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 | 100 | r
for (j = jst; j <= jend; j++) {
#pragma omp parallel for
for (k = 1; k <= nz-2; k++) {
<LOOP-START>for (m = 0; m < 5; m++) {
u[i][j][k][m] = u[i][j][k][m]
+ tmp * rsd[i][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 | 100 | ------------------------------------*/
epsilon = 1.0e-08;
*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/LU/lu.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/FT/ft.c | #pragma omp parallel for private(i ,j ,k ) | 100 | space
c-------------------------------------------------------------------*/
int i, j, k;
<LOOP-START>for (k = 0; k < d[2]; k++) {
for (j = 0; j < d[1]; j++) {
for (i = 0; i < d[0]; i++) {
crmul(u1[k][j][i], u0[k][j][i], ex[t*indexmap[k][j][i]]);
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ,k ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for | 100 | 006 format(' WARNING: compiled for ', i5, ' processes. ',
> ' Will not verify. ')*/
<LOOP-START>for (i = 0;i < 3 ; i++) {
dims[i][0] = NX;
dims[i][1] = NY;
dims[i][2] = NZ;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for | 100 | or
for (i = 0;i < 3 ; i++) {
dims[i][0] = NX;
dims[i][1] = NY;
dims[i][2] = NZ;
}
<LOOP-START>for (i = 0; i < 3; i++) {
xstart[i] = 1;
xend[i] = NX;
ystart[i] = 1;
yend[i] = NY;
zstart[i] = 1;
zend[i] = NZ;
}<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for private(i ,j ,k ,ii ,ii2 ,jj ,ij2 ,kk ) | 100 | c mod(i-1+n/2, n) - n/2
c-------------------------------------------------------------------*/
<LOOP-START>for (i = 0; i < dims[2][0]; i++) {
ii = (i+1+xstart[2]-2+NX/2)%NX - NX/2;
ii2 = ii*ii;
#pragma omp parallel for private(j) firstprivate(k ,ii ,ii2 ,jj ,ij2 ,kk ,i )
for (j = 0; j < dims[2][1]; j++) {
jj = (j+1+ystart[2]-2+NY/2)%NY - NY/2;
ij2 = jj*jj+ii2;
#pragma omp parallel for private(k) firstprivate(j ,ii ,ii2 ,jj ,ij2 ,kk ,i )
for (k = 0; k < dims[2][2]; k++) {
kk = (k+1+zstart[2]-2+NZ/2)%NZ - NZ/2;
indexmap[k][j][i] = kk*kk+ij2;
}
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ,k ,ii ,ii2 ,jj ,ij2 ,kk ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for private(j) firstprivate(k ,ii ,ii2 ,jj ,ij2 ,kk ,i ) | 100 | k )
for (i = 0; i < dims[2][0]; i++) {
ii = (i+1+xstart[2]-2+NX/2)%NX - NX/2;
ii2 = ii*ii;
<LOOP-START>for (j = 0; j < dims[2][1]; j++) {
jj = (j+1+ystart[2]-2+NY/2)%NY - NY/2;
ij2 = jj*jj+ii2;
#pragma omp parallel for private(k) firstprivate(j ,ii ,ii2 ,jj ,ij2 ,kk ,i )
for (k = 0; k < dims[2][2]; k++) {
kk = (k+1+zstart[2]-2+NZ/2)%NZ - NZ/2;
indexmap[k][j][i] = kk*kk+ij2;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) firstprivate(k ,ii ,ii2 ,jj ,ij2 ,kk ,i ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for private(k) firstprivate(j ,ii ,ii2 ,jj ,ij2 ,kk ,i ) | 100 | j++) {
jj = (j+1+ystart[2]-2+NY/2)%NY - NY/2;
ij2 = jj*jj+ii2;
<LOOP-START>for (k = 0; k < dims[2][2]; k++) {
kk = (k+1+zstart[2]-2+NZ/2)%NZ - NZ/2;
indexmap[k][j][i] = kk*kk+ij2;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(k) firstprivate(j ,ii ,ii2 ,jj ,ij2 ,kk ,i ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for | 100 | -----------------------------------------------------*/
int logd[3];
int i, j, k, jj;
<LOOP-START>for (i = 0; i < 3; i++) {
logd[i] = ilog2(d[i]);
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for private(i ,j ,k ,jj ) | 100 | {
logd[i] = ilog2(d[i]);
}
{
dcomplex y0[NX][FFTBLOCKPAD];
dcomplex y1[NX][FFTBLOCKPAD];
<LOOP-START>for (k = 0; k < d[2]; k++) {
for (jj = 0; jj <= d[1] - fftblock; jj+=fftblock) {
/* if (TIMERS_ENABLED == TRUE) timer_start(T_FFTCOPY); */
#pragma omp parallel for private(j) firstprivate(i ,jj ,k )
for (j = 0; j < fftblock; j++) {
#pragma omp parallel for private(i) firstprivate(jj ,j ,k )
for (i = 0; i < d[0]; i++) {
y0[i][j].real = x[k][j+jj][i].real;
y0[i][j].imag = x[k][j+jj][i].imag;
}
}
/* if (TIMERS_ENABLED == TRUE) timer_stop(T_FFTCOPY); */
/* if (TIMERS_ENABLED == TRUE) timer_start(T_FFTLOW); */
cfftz (is, logd[0],
d[0], y0, y1);
/* if (TIMERS_ENABLED == TRUE) timer_stop(T_FFTLOW); */
/* if (TIMERS_ENABLED == TRUE) timer_start(T_FFTCOPY); */
#pragma omp parallel for private(j) firstprivate(fftblock ,i ,jj ,x ,k )
for (j = 0; j < fftblock; j++) {
for (i = 0; i < d[0]; i++) {
xout[k][j+jj][i].real = y0[i][j].real;
xout[k][j+jj][i].imag = y0[i][j].imag;
}
}
/* if (TIMERS_ENABLED == TRUE) timer_stop(T_FFTCOPY); */
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ,k ,jj ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for private(j) firstprivate(i ,jj ,k ) | 100 | ock; jj+=fftblock) {
/* if (TIMERS_ENABLED == TRUE) timer_start(T_FFTCOPY); */
<LOOP-START>for (j = 0; j < fftblock; j++) {
#pragma omp parallel for private(i) firstprivate(jj ,j ,k )
for (i = 0; i < d[0]; i++) {
y0[i][j].real = x[k][j+jj][i].real;
y0[i][j].imag = x[k][j+jj][i].imag;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) firstprivate(i ,jj ,k ) <OMP-END> |
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/FT/ft.c | #pragma omp parallel for private(i) firstprivate(jj ,j ,k ) | 100 | omp parallel for private(j) firstprivate(i ,jj ,k )
for (j = 0; j < fftblock; j++) {
<LOOP-START>for (i = 0; i < d[0]; i++) {
y0[i][j].real = x[k][j+jj][i].real;
y0[i][j].imag = x[k][j+jj][i].imag;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i) firstprivate(jj ,j ,k ) <OMP-END> |
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