Datasets:
LLMforParallelCode1
/
OMP-FT-Source

Dataset card Data Studio Files
xet
Community
1
filename
stringlengths
19
182
omp_pragma_line
stringlengths
24
416
context_chars
int64
100
100
text
stringlengths
152
177k
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = u[i][j][k][m] + rhs[i][j][k][m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(m )
100
-------------------------------*/ int i, j, k, m, d; double xi, eta, zeta, u_exact[5], add; <LOOP-START>for (m = 0; m < 5; m++) { rms[m] = 0.0; }<LOOP-END> <OMP-START>#pragma omp parallel for private(m ) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(add ,m)
100
0; k < grid_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, u_exact); <LOOP-START>for (m = 0; m < 5; m++) { add = u[i][j][k][m] - u_exact[m]; rms[m] = rms[m] + add*add; }<LOOP-END> <OMP-START>#pragma omp parallel for private(add ,m) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(d ,m )
100
; m++) { add = u[i][j][k][m] - u_exact[m]; rms[m] = rms[m] + add*add; } } } } <LOOP-START>for (m = 0; m < 5; m++) { for (d = 0; d <= 2; d++) { rms[m] = rms[m] / (double)(grid_points[d]-2); } rms[m] = sqrt(rms[m]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(d ,m ) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(m )
100
----------------------------------------------------------*/ int i, j, k, d, m; double add; <LOOP-START>for (m = 0; m < 5; m++) { rms[m] = 0.0; }<LOOP-END> <OMP-START>#pragma omp parallel for private(m ) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(add, m)
100
i++) { for (j = 1; j < grid_points[1]-1; j++) { for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { add = rhs[i][j][k][m]; rms[m] = rms[m] + add*add; }<LOOP-END> <OMP-START>#pragma omp parallel for private(add, m) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(d ,m )
100
= 0; m < 5; m++) { add = rhs[i][j][k][m]; rms[m] = rms[m] + add*add; } } } } <LOOP-START>for (m = 0; m < 5; m++) { for (d = 0; d <= 2; d++) { rms[m] = rms[m] / (double)(grid_points[d]-2); } rms[m] = sqrt(rms[m]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(d ,m ) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
c-------------------------------------------------------------------*/ <LOOP-START>for (i = 0; i < grid_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { forcing[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/BT/bt.c
#pragma omp parallel for
100
----------------------*/ #pragma omp parallel for for (i = 0; i < grid_points[0]; i++) { <LOOP-START>for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { forcing[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/BT/bt.c
#pragma omp parallel for
100
d_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { <LOOP-START>for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { forcing[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/BT/bt.c
#pragma omp parallel for
100
id_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { <LOOP-START>for (m = 0; m < 5; m++) { forcing[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/BT/bt.c
#pragma omp parallel for firstprivate(dx1tx1 ,tx2 ,dx2tx1 ,xxcon1 ,c2 ,dx3tx1 ,xxcon2 ,dx4tx1 ,dx5tx1 ,xxcon5 ,xxcon4 ,xxcon3 ,c1)
100
es c-------------------------------------------------------------------*/ //<LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { eta = (double)j * dnym1; for (k = 1; k < grid_points[2]-1; k++) { zeta = (double)k * dnzm1; for (i = 0; i < grid_points[0]; i++) { xi = (double)i * dnxm1; exact_solution(xi, eta, zeta, dtemp); #pragma omp parallel for for (m = 0; m < 5; m++) { ue[i][m] = dtemp[m]; } dtpp = 1.0 / dtemp[0]; #pragma omp parallel for for (m = 1; m <= 4; m++) { buf[i][m] = dtpp * dtemp[m]; } cuf[i] = buf[i][1] * buf[i][1]; buf[i][0] = cuf[i] + buf[i][2] * buf[i][2] + buf[i][3] * buf[i][3]; q[i] = 0.5*(buf[i][1]*ue[i][1] + buf[i][2]*ue[i][2] + buf[i][3]*ue[i][3]); } #pragma omp parallel for private(i) firstprivate(dx1tx1 ,tx2 ,dx2tx1 ,xxcon1 ,c2 ,dx3tx1 ,xxcon2 ,dx4tx1 ,dx5tx1 ,xxcon5 ,xxcon4 ,xxcon3 ,c1 ,k ,j ) for (i = 1; i < grid_points[0]-1; i++) { im1 = i-1; ip1 = i+1; forcing[i][j][k][0] = forcing[i][j][k][0] - tx2*(ue[ip1][1]-ue[im1][1])+ dx1tx1*(ue[ip1][0]-2.0*ue[i][0]+ue[im1][0]); forcing[i][j][k][1] = forcing[i][j][k][1] - tx2 * ((ue[ip1][1]*buf[ip1][1]+c2*(ue[ip1][4]-q[ip1]))- (ue[im1][1]*buf[im1][1]+c2*(ue[im1][4]-q[im1])))+ xxcon1*(buf[ip1][1]-2.0*buf[i][1]+buf[im1][1])+ dx2tx1*( ue[ip1][1]-2.0* ue[i][1]+ ue[im1][1]); forcing[i][j][k][2] = forcing[i][j][k][2] - tx2 * (ue[ip1][2]*buf[ip1][1]-ue[im1][2]*buf[im1][1])+ xxcon2*(buf[ip1][2]-2.0*buf[i][2]+buf[im1][2])+ dx3tx1*( ue[ip1][2]-2.0* ue[i][2]+ ue[im1][2]); forcing[i][j][k][3] = forcing[i][j][k][3] - tx2*(ue[ip1][3]*buf[ip1][1]-ue[im1][3]*buf[im1][1])+ xxcon2*(buf[ip1][3]-2.0*buf[i][3]+buf[im1][3])+ dx4tx1*( ue[ip1][3]-2.0* ue[i][3]+ ue[im1][3]); forcing[i][j][k][4] = forcing[i][j][k][4] - tx2*(buf[ip1][1]*(c1*ue[ip1][4]-c2*q[ip1])- buf[im1][1]*(c1*ue[im1][4]-c2*q[im1]))+ 0.5*xxcon3*(buf[ip1][0]-2.0*buf[i][0]+buf[im1][0])+ xxcon4*(cuf[ip1]-2.0*cuf[i]+cuf[im1])+ xxcon5*(buf[ip1][4]-2.0*buf[i][4]+buf[im1][4])+ dx5tx1*( ue[ip1][4]-2.0* ue[i][4]+ ue[im1][4]); } /*-------------------------------------------------------------------- c Fourth-order dissipation c-------------------------------------------------------------------*/ #pragma omp parallel for for (m = 0; m < 5; m++) { i = 1; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (5.0*ue[i][m] - 4.0*ue[i+1][m] +ue[i+2][m]); i = 2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (-4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); } #pragma omp parallel for for (m = 0; m < 5; m++) { #pragma omp parallel for for (i = 1*3; i <= grid_points[0]-3*1-1; i++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[i-2][m] - 4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); } } #pragma omp parallel for private(i) for (m = 0; m < 5; m++) { i = grid_points[0]-3; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[i-2][m] - 4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m]); i = grid_points[0]-2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[i-2][m] - 4.0*ue[i-1][m] + 5.0*ue[i][m]); } } }<LOOP-END> <OMP-START>#pragma omp parallel for firstprivate(dx1tx1 ,tx2 ,dx2tx1 ,xxcon1 ,c2 ,dx3tx1 ,xxcon2 ,dx4tx1 ,dx5tx1 ,xxcon5 ,xxcon4 ,xxcon3 ,c1)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
i = 0; i < grid_points[0]; i++) { xi = (double)i * dnxm1; exact_solution(xi, eta, zeta, dtemp); <LOOP-START>for (m = 0; m < 5; m++) { ue[i][m] = dtemp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
a omp parallel for for (m = 0; m < 5; m++) { ue[i][m] = dtemp[m]; } dtpp = 1.0 / dtemp[0]; <LOOP-START>for (m = 1; m <= 4; m++) { buf[i][m] = dtpp * dtemp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(i) firstprivate(dx1tx1 ,tx2 ,dx2tx1 ,xxcon1 ,c2 ,dx3tx1 ,xxcon2 ,dx4tx1 ,dx5tx1 ,xxcon5 ,xxcon4 ,xxcon3 ,c1 ,k ,j )
100
(buf[i][1]*ue[i][1] + buf[i][2]*ue[i][2] + buf[i][3]*ue[i][3]); } <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { im1 = i-1; ip1 = i+1; forcing[i][j][k][0] = forcing[i][j][k][0] - tx2*(ue[ip1][1]-ue[im1][1])+ dx1tx1*(ue[ip1][0]-2.0*ue[i][0]+ue[im1][0]); forcing[i][j][k][1] = forcing[i][j][k][1] - tx2 * ((ue[ip1][1]*buf[ip1][1]+c2*(ue[ip1][4]-q[ip1]))- (ue[im1][1]*buf[im1][1]+c2*(ue[im1][4]-q[im1])))+ xxcon1*(buf[ip1][1]-2.0*buf[i][1]+buf[im1][1])+ dx2tx1*( ue[ip1][1]-2.0* ue[i][1]+ ue[im1][1]); forcing[i][j][k][2] = forcing[i][j][k][2] - tx2 * (ue[ip1][2]*buf[ip1][1]-ue[im1][2]*buf[im1][1])+ xxcon2*(buf[ip1][2]-2.0*buf[i][2]+buf[im1][2])+ dx3tx1*( ue[ip1][2]-2.0* ue[i][2]+ ue[im1][2]); forcing[i][j][k][3] = forcing[i][j][k][3] - tx2*(ue[ip1][3]*buf[ip1][1]-ue[im1][3]*buf[im1][1])+ xxcon2*(buf[ip1][3]-2.0*buf[i][3]+buf[im1][3])+ dx4tx1*( ue[ip1][3]-2.0* ue[i][3]+ ue[im1][3]); forcing[i][j][k][4] = forcing[i][j][k][4] - tx2*(buf[ip1][1]*(c1*ue[ip1][4]-c2*q[ip1])- buf[im1][1]*(c1*ue[im1][4]-c2*q[im1]))+ 0.5*xxcon3*(buf[ip1][0]-2.0*buf[i][0]+buf[im1][0])+ xxcon4*(cuf[ip1]-2.0*cuf[i]+cuf[im1])+ xxcon5*(buf[ip1][4]-2.0*buf[i][4]+buf[im1][4])+ dx5tx1*( ue[ip1][4]-2.0* ue[i][4]+ ue[im1][4]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(i) firstprivate(dx1tx1 ,tx2 ,dx2tx1 ,xxcon1 ,c2 ,dx3tx1 ,xxcon2 ,dx4tx1 ,dx5tx1 ,xxcon5 ,xxcon4 ,xxcon3 ,c1 ,k ,j ) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
c-------------------------------------------------------------------*/ <LOOP-START>for (m = 0; m < 5; m++) { i = 1; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (5.0*ue[i][m] - 4.0*ue[i+1][m] +ue[i+2][m]); i = 2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (-4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
- dssp * (-4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); } <LOOP-START>for (m = 0; m < 5; m++) { #pragma omp parallel for for (i = 1*3; i <= grid_points[0]-3*1-1; i++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[i-2][m] - 4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
1][m] + ue[i+2][m]); } #pragma omp parallel for for (m = 0; m < 5; m++) { <LOOP-START>for (i = 1*3; i <= grid_points[0]-3*1-1; i++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[i-2][m] - 4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(i)
100
(ue[i-2][m] - 4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m] + ue[i+2][m]); } } <LOOP-START>for (m = 0; m < 5; m++) { i = grid_points[0]-3; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[i-2][m] - 4.0*ue[i-1][m] + 6.0*ue[i][m] - 4.0*ue[i+1][m]); i = grid_points[0]-2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[i-2][m] - 4.0*ue[i-1][m] + 5.0*ue[i][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(i) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(xi, zeta, eta)
100
differences c-------------------------------------------------------------------*/ //<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { xi = (double)i * dnxm1; for (k = 1; k < grid_points[2]-1; k++) { zeta = (double)k * dnzm1; for (j = 0; j < grid_points[1]; j++) { eta = (double)j * dnym1; exact_solution(xi, eta, zeta, dtemp); #pragma omp parallel for for (m = 0; m < 5; m++) { ue[j][m] = dtemp[m]; } dtpp = 1.0/dtemp[0]; #pragma omp parallel for for (m = 1; m <= 4; m++) { buf[j][m] = dtpp * dtemp[m]; } cuf[j] = buf[j][2] * buf[j][2]; buf[j][0] = cuf[j] + buf[j][1] * buf[j][1] + buf[j][3] * buf[j][3]; q[j] = 0.5*(buf[j][1]*ue[j][1] + buf[j][2]*ue[j][2] + buf[j][3]*ue[j][3]); } #pragma omp parallel for private(j, jm1, jp1) firstprivate(dy1ty1 ,ty2 ,dy2ty1 ,yycon2 ,dy3ty1 ,yycon1 ,c2 ,dy4ty1 ,dy5ty1 ,yycon5 ,yycon4 ,yycon3 ,c1 ,k ,i ) for (j = 1; j < grid_points[1]-1; j++) { jm1 = j-1; jp1 = j+1; forcing[i][j][k][0] = forcing[i][j][k][0] - ty2*( ue[jp1][2]-ue[jm1][2] )+ dy1ty1*(ue[jp1][0]-2.0*ue[j][0]+ue[jm1][0]); forcing[i][j][k][1] = forcing[i][j][k][1] - ty2*(ue[jp1][1]*buf[jp1][2]-ue[jm1][1]*buf[jm1][2])+ yycon2*(buf[jp1][1]-2.0*buf[j][1]+buf[jm1][1])+ dy2ty1*( ue[jp1][1]-2.0* ue[j][1]+ ue[jm1][1]); forcing[i][j][k][2] = forcing[i][j][k][2] - ty2*((ue[jp1][2]*buf[jp1][2]+c2*(ue[jp1][4]-q[jp1]))- (ue[jm1][2]*buf[jm1][2]+c2*(ue[jm1][4]-q[jm1])))+ yycon1*(buf[jp1][2]-2.0*buf[j][2]+buf[jm1][2])+ dy3ty1*( ue[jp1][2]-2.0*ue[j][2] +ue[jm1][2]); forcing[i][j][k][3] = forcing[i][j][k][3] - ty2*(ue[jp1][3]*buf[jp1][2]-ue[jm1][3]*buf[jm1][2])+ yycon2*(buf[jp1][3]-2.0*buf[j][3]+buf[jm1][3])+ dy4ty1*( ue[jp1][3]-2.0*ue[j][3]+ ue[jm1][3]); forcing[i][j][k][4] = forcing[i][j][k][4] - ty2*(buf[jp1][2]*(c1*ue[jp1][4]-c2*q[jp1])- buf[jm1][2]*(c1*ue[jm1][4]-c2*q[jm1]))+ 0.5*yycon3*(buf[jp1][0]-2.0*buf[j][0]+ buf[jm1][0])+ yycon4*(cuf[jp1]-2.0*cuf[j]+cuf[jm1])+ yycon5*(buf[jp1][4]-2.0*buf[j][4]+buf[jm1][4])+ dy5ty1*(ue[jp1][4]-2.0*ue[j][4]+ue[jm1][4]); } /*-------------------------------------------------------------------- c Fourth-order dissipation c-------------------------------------------------------------------*/ #pragma omp parallel for private(j) for (m = 0; m < 5; m++) { j = 1; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (5.0*ue[j][m] - 4.0*ue[j+1][m] +ue[j+2][m]); j = 2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (-4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); } #pragma omp parallel for for (m = 0; m < 5; m++) { #pragma omp parallel for for (j = 1*3; j <= grid_points[1]-3*1-1; j++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[j-2][m] - 4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); } } #pragma omp parallel for private(j) for (m = 0; m < 5; m++) { j = grid_points[1]-3; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[j-2][m] - 4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m]); j = grid_points[1]-2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[j-2][m] - 4.0*ue[j-1][m] + 5.0*ue[j][m]); } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(xi, zeta, eta) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
= 0; j < grid_points[1]; j++) { eta = (double)j * dnym1; exact_solution(xi, eta, zeta, dtemp); <LOOP-START>for (m = 0; m < 5; m++) { ue[j][m] = dtemp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
or for (m = 0; m < 5; m++) { ue[j][m] = dtemp[m]; } dtpp = 1.0/dtemp[0]; <LOOP-START>for (m = 1; m <= 4; m++) { buf[j][m] = dtpp * dtemp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(j, jm1, jp1) firstprivate(dy1ty1 ,ty2 ,dy2ty1 ,yycon2 ,dy3ty1 ,yycon1 ,c2 ,dy4ty1 ,dy5ty1 ,yycon5 ,yycon4 ,yycon3 ,c1 ,k ,i )
100
]; q[j] = 0.5*(buf[j][1]*ue[j][1] + buf[j][2]*ue[j][2] + buf[j][3]*ue[j][3]); } <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { jm1 = j-1; jp1 = j+1; forcing[i][j][k][0] = forcing[i][j][k][0] - ty2*( ue[jp1][2]-ue[jm1][2] )+ dy1ty1*(ue[jp1][0]-2.0*ue[j][0]+ue[jm1][0]); forcing[i][j][k][1] = forcing[i][j][k][1] - ty2*(ue[jp1][1]*buf[jp1][2]-ue[jm1][1]*buf[jm1][2])+ yycon2*(buf[jp1][1]-2.0*buf[j][1]+buf[jm1][1])+ dy2ty1*( ue[jp1][1]-2.0* ue[j][1]+ ue[jm1][1]); forcing[i][j][k][2] = forcing[i][j][k][2] - ty2*((ue[jp1][2]*buf[jp1][2]+c2*(ue[jp1][4]-q[jp1]))- (ue[jm1][2]*buf[jm1][2]+c2*(ue[jm1][4]-q[jm1])))+ yycon1*(buf[jp1][2]-2.0*buf[j][2]+buf[jm1][2])+ dy3ty1*( ue[jp1][2]-2.0*ue[j][2] +ue[jm1][2]); forcing[i][j][k][3] = forcing[i][j][k][3] - ty2*(ue[jp1][3]*buf[jp1][2]-ue[jm1][3]*buf[jm1][2])+ yycon2*(buf[jp1][3]-2.0*buf[j][3]+buf[jm1][3])+ dy4ty1*( ue[jp1][3]-2.0*ue[j][3]+ ue[jm1][3]); forcing[i][j][k][4] = forcing[i][j][k][4] - ty2*(buf[jp1][2]*(c1*ue[jp1][4]-c2*q[jp1])- buf[jm1][2]*(c1*ue[jm1][4]-c2*q[jm1]))+ 0.5*yycon3*(buf[jp1][0]-2.0*buf[j][0]+ buf[jm1][0])+ yycon4*(cuf[jp1]-2.0*cuf[j]+cuf[jm1])+ yycon5*(buf[jp1][4]-2.0*buf[j][4]+buf[jm1][4])+ dy5ty1*(ue[jp1][4]-2.0*ue[j][4]+ue[jm1][4]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(j, jm1, jp1) firstprivate(dy1ty1 ,ty2 ,dy2ty1 ,yycon2 ,dy3ty1 ,yycon1 ,c2 ,dy4ty1 ,dy5ty1 ,yycon5 ,yycon4 ,yycon3 ,c1 ,k ,i ) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(j)
100
c-------------------------------------------------------------------*/ <LOOP-START>for (m = 0; m < 5; m++) { j = 1; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (5.0*ue[j][m] - 4.0*ue[j+1][m] +ue[j+2][m]); j = 2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (-4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(j) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
dssp * (-4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); } <LOOP-START>for (m = 0; m < 5; m++) { #pragma omp parallel for for (j = 1*3; j <= grid_points[1]-3*1-1; j++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[j-2][m] - 4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
[m] + ue[j+2][m]); } #pragma omp parallel for for (m = 0; m < 5; m++) { <LOOP-START>for (j = 1*3; j <= grid_points[1]-3*1-1; j++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[j-2][m] - 4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(j)
100
(ue[j-2][m] - 4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m] + ue[j+2][m]); } } <LOOP-START>for (m = 0; m < 5; m++) { j = grid_points[1]-3; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[j-2][m] - 4.0*ue[j-1][m] + 6.0*ue[j][m] - 4.0*ue[j+1][m]); j = grid_points[1]-2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[j-2][m] - 4.0*ue[j-1][m] + 5.0*ue[j][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(j) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(xi, eta, zeta)
100
es c-------------------------------------------------------------------*/ //<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { xi = (double)i * dnxm1; for (j = 1; j < grid_points[1]-1; j++) { eta = (double)j * dnym1; for (k = 0; k < grid_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, dtemp); #pragma omp parallel for for (m = 0; m < 5; m++) { ue[k][m] = dtemp[m]; } dtpp = 1.0/dtemp[0]; #pragma omp parallel for for (m = 1; m <= 4; m++) { buf[k][m] = dtpp * dtemp[m]; } cuf[k] = buf[k][3] * buf[k][3]; buf[k][0] = cuf[k] + buf[k][1] * buf[k][1] + buf[k][2] * buf[k][2]; q[k] = 0.5*(buf[k][1]*ue[k][1] + buf[k][2]*ue[k][2] + buf[k][3]*ue[k][3]); } #pragma omp parallel for private(k, km1, kp1) for (k = 1; k < grid_points[2]-1; k++) { km1 = k-1; kp1 = k+1; forcing[i][j][k][0] = forcing[i][j][k][0] - tz2*( ue[kp1][3]-ue[km1][3] )+ dz1tz1*(ue[kp1][0]-2.0*ue[k][0]+ue[km1][0]); forcing[i][j][k][1] = forcing[i][j][k][1] - tz2 * (ue[kp1][1]*buf[kp1][3]-ue[km1][1]*buf[km1][3])+ zzcon2*(buf[kp1][1]-2.0*buf[k][1]+buf[km1][1])+ dz2tz1*( ue[kp1][1]-2.0* ue[k][1]+ ue[km1][1]); forcing[i][j][k][2] = forcing[i][j][k][2] - tz2 * (ue[kp1][2]*buf[kp1][3]-ue[km1][2]*buf[km1][3])+ zzcon2*(buf[kp1][2]-2.0*buf[k][2]+buf[km1][2])+ dz3tz1*(ue[kp1][2]-2.0*ue[k][2]+ue[km1][2]); forcing[i][j][k][3] = forcing[i][j][k][3] - tz2 * ((ue[kp1][3]*buf[kp1][3]+c2*(ue[kp1][4]-q[kp1]))- (ue[km1][3]*buf[km1][3]+c2*(ue[km1][4]-q[km1])))+ zzcon1*(buf[kp1][3]-2.0*buf[k][3]+buf[km1][3])+ dz4tz1*( ue[kp1][3]-2.0*ue[k][3] +ue[km1][3]); forcing[i][j][k][4] = forcing[i][j][k][4] - tz2 * (buf[kp1][3]*(c1*ue[kp1][4]-c2*q[kp1])- buf[km1][3]*(c1*ue[km1][4]-c2*q[km1]))+ 0.5*zzcon3*(buf[kp1][0]-2.0*buf[k][0] +buf[km1][0])+ zzcon4*(cuf[kp1]-2.0*cuf[k]+cuf[km1])+ zzcon5*(buf[kp1][4]-2.0*buf[k][4]+buf[km1][4])+ dz5tz1*( ue[kp1][4]-2.0*ue[k][4]+ ue[km1][4]); } /*-------------------------------------------------------------------- c Fourth-order dissipation c-------------------------------------------------------------------*/ #pragma omp parallel for private(k) for (m = 0; m < 5; m++) { k = 1; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (5.0*ue[k][m] - 4.0*ue[k+1][m] +ue[k+2][m]); k = 2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (-4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); } #pragma omp parallel for for (m = 0; m < 5; m++) { #pragma omp parallel for for (k = 1*3; k <= grid_points[2]-3*1-1; k++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[k-2][m] - 4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); } } #pragma omp parallel for for (m = 0; m < 5; m++) { k = grid_points[2]-3; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[k-2][m] - 4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m]); k = grid_points[2]-2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[k-2][m] - 4.0*ue[k-1][m] + 5.0*ue[k][m]); } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(xi, eta, zeta)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
= 0; k < grid_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, dtemp); <LOOP-START>for (m = 0; m < 5; m++) { ue[k][m] = dtemp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
a omp parallel for for (m = 0; m < 5; m++) { ue[k][m] = dtemp[m]; } dtpp = 1.0/dtemp[0]; <LOOP-START>for (m = 1; m <= 4; m++) { buf[k][m] = dtpp * dtemp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(k, km1, kp1)
100
]; q[k] = 0.5*(buf[k][1]*ue[k][1] + buf[k][2]*ue[k][2] + buf[k][3]*ue[k][3]); } <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { km1 = k-1; kp1 = k+1; forcing[i][j][k][0] = forcing[i][j][k][0] - tz2*( ue[kp1][3]-ue[km1][3] )+ dz1tz1*(ue[kp1][0]-2.0*ue[k][0]+ue[km1][0]); forcing[i][j][k][1] = forcing[i][j][k][1] - tz2 * (ue[kp1][1]*buf[kp1][3]-ue[km1][1]*buf[km1][3])+ zzcon2*(buf[kp1][1]-2.0*buf[k][1]+buf[km1][1])+ dz2tz1*( ue[kp1][1]-2.0* ue[k][1]+ ue[km1][1]); forcing[i][j][k][2] = forcing[i][j][k][2] - tz2 * (ue[kp1][2]*buf[kp1][3]-ue[km1][2]*buf[km1][3])+ zzcon2*(buf[kp1][2]-2.0*buf[k][2]+buf[km1][2])+ dz3tz1*(ue[kp1][2]-2.0*ue[k][2]+ue[km1][2]); forcing[i][j][k][3] = forcing[i][j][k][3] - tz2 * ((ue[kp1][3]*buf[kp1][3]+c2*(ue[kp1][4]-q[kp1]))- (ue[km1][3]*buf[km1][3]+c2*(ue[km1][4]-q[km1])))+ zzcon1*(buf[kp1][3]-2.0*buf[k][3]+buf[km1][3])+ dz4tz1*( ue[kp1][3]-2.0*ue[k][3] +ue[km1][3]); forcing[i][j][k][4] = forcing[i][j][k][4] - tz2 * (buf[kp1][3]*(c1*ue[kp1][4]-c2*q[kp1])- buf[km1][3]*(c1*ue[km1][4]-c2*q[km1]))+ 0.5*zzcon3*(buf[kp1][0]-2.0*buf[k][0] +buf[km1][0])+ zzcon4*(cuf[kp1]-2.0*cuf[k]+cuf[km1])+ zzcon5*(buf[kp1][4]-2.0*buf[k][4]+buf[km1][4])+ dz5tz1*( ue[kp1][4]-2.0*ue[k][4]+ ue[km1][4]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(k, km1, kp1) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(k)
100
c-------------------------------------------------------------------*/ <LOOP-START>for (m = 0; m < 5; m++) { k = 1; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (5.0*ue[k][m] - 4.0*ue[k+1][m] +ue[k+2][m]); k = 2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (-4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(k)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
dssp * (-4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); } <LOOP-START>for (m = 0; m < 5; m++) { #pragma omp parallel for for (k = 1*3; k <= grid_points[2]-3*1-1; k++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[k-2][m] - 4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
][m] + ue[k+2][m]); } #pragma omp parallel for for (m = 0; m < 5; m++) { <LOOP-START>for (k = 1*3; k <= grid_points[2]-3*1-1; k++) { forcing[i][j][k][m] = forcing[i][j][k][m] - dssp* (ue[k-2][m] - 4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
(ue[k-2][m] - 4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m] + ue[k+2][m]); } } <LOOP-START>for (m = 0; m < 5; m++) { k = grid_points[2]-3; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[k-2][m] - 4.0*ue[k-1][m] + 6.0*ue[k][m] - 4.0*ue[k+1][m]); k = grid_points[2]-2; forcing[i][j][k][m] = forcing[i][j][k][m] - dssp * (ue[k-2][m] - 4.0*ue[k-1][m] + 5.0*ue[k][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
of the forcing function, c-------------------------------------------------------------------*/ <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { forcing[i][j][k][m] = -1.0 * forcing[i][j][k][m]; } } } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
-----------------------*/ #pragma omp parallel for for (i = 1; i < grid_points[0]-1; i++) { <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { forcing[i][j][k][m] = -1.0 * forcing[i][j][k][m]; } } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
points[0]-1; i++) { #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { forcing[i][j][k][m] = -1.0 * forcing[i][j][k][m]; } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { forcing[i][j][k][m] = -1.0 * forcing[i][j][k][m]; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
xi, eta, zeta c-------------------------------------------------------------------*/ int m; <LOOP-START>for (m = 0; m < 5; m++) { dtemp[m] = ce[m][0] + xi*(ce[m][1] + xi*(ce[m][4] + xi*(ce[m][7] + xi*ce[m][10]))) + eta*(ce[m][2] + eta*(ce[m][5] + eta*(ce[m][8] + eta*ce[m][11])))+ zeta*(ce[m][3] + zeta*(ce[m][6] + zeta*(ce[m][9] + zeta*ce[m][12]))); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
ing the whole thing here. c-------------------------------------------------------------------*/ <LOOP-START>for (i = 0; i < IMAX; i++) { #pragma omp parallel for for (j = 0; j < IMAX; j++) { #pragma omp parallel for for (k = 0; k < IMAX; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { u[i][j][k][m] = 1.0; } } } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
-----------------------------------*/ #pragma omp parallel for for (i = 0; i < IMAX; i++) { <LOOP-START>for (j = 0; j < IMAX; j++) { #pragma omp parallel for for (k = 0; k < IMAX; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { u[i][j][k][m] = 1.0; } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
for (i = 0; i < IMAX; i++) { #pragma omp parallel for for (j = 0; j < IMAX; j++) { <LOOP-START>for (k = 0; k < IMAX; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { u[i][j][k][m] = 1.0; } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
for (j = 0; j < IMAX; j++) { #pragma omp parallel for for (k = 0; k < IMAX; k++) { <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = 1.0; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
for (k = 0; k < grid_points[2]; k++) { zeta = (double)k * dnzm1; <LOOP-START>for (ix = 0; ix < 2; ix++) { exact_solution((double)ix, eta, zeta, &(Pface[ix][0][0])); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(Pxi, Peta, Pzeta)
100
iz++) { exact_solution(xi, eta, (double)iz, &Pface[iz][2][0]); } <LOOP-START>for (m = 0; m < 5; m++) { Pxi = xi * Pface[1][0][m] + (1.0-xi) * Pface[0][0][m]; Peta = eta * Pface[1][1][m] + (1.0-eta) * Pface[0][1][m]; Pzeta = zeta * Pface[1][2][m] + (1.0-zeta) * Pface[0][2][m]; u[i][j][k][m] = Pxi + Peta + Pzeta - Pxi*Peta - Pxi*Pzeta - Peta*Pzeta + 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/BT/bt.c
#pragma omp parallel for
100
_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, temp); <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = temp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, temp); <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = temp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, temp); <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = temp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
_points[2]; k++) { zeta = (double)k * dnzm1; exact_solution(xi, eta, zeta, temp); <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = temp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
d_points[1]; j++) { eta = (double)j * dnym1; exact_solution(xi, eta, zeta, temp); <LOOP-START>for (m = 0; m < 5; m++) { u[i][j][k][m] = temp[m]; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
eft hand side for starters c-------------------------------------------------------------------*/ <LOOP-START>for (i = 0; i < grid_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { #pragma omp parallel for for (n = 0; n < 5; n++) { lhs[i][j][k][0][m][n] = 0.0; lhs[i][j][k][1][m][n] = 0.0; lhs[i][j][k][2][m][n] = 0.0; } } } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
-----------------------*/ #pragma omp parallel for for (i = 0; i < grid_points[0]; i++) { <LOOP-START>for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { #pragma omp parallel for for (n = 0; n < 5; n++) { lhs[i][j][k][0][m][n] = 0.0; lhs[i][j][k][1][m][n] = 0.0; lhs[i][j][k][2][m][n] = 0.0; } } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
id_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { <LOOP-START>for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { #pragma omp parallel for for (n = 0; n < 5; n++) { lhs[i][j][k][0][m][n] = 0.0; lhs[i][j][k][1][m][n] = 0.0; lhs[i][j][k][2][m][n] = 0.0; } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
rid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { <LOOP-START>for (m = 0; m < 5; m++) { #pragma omp parallel for for (n = 0; n < 5; n++) { lhs[i][j][k][0][m][n] = 0.0; lhs[i][j][k][1][m][n] = 0.0; lhs[i][j][k][2][m][n] = 0.0; } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { <LOOP-START>for (n = 0; n < 5; n++) { lhs[i][j][k][0][m][n] = 0.0; lhs[i][j][k][1][m][n] = 0.0; lhs[i][j][k][2][m][n] = 0.0; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
s overkill, but convenient c-------------------------------------------------------------------*/ <LOOP-START>for (i = 0; i < grid_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { lhs[i][j][k][1][m][m] = 1.0; } } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
------------------------*/ #pragma omp parallel for for (i = 0; i < grid_points[0]; i++) { <LOOP-START>for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { lhs[i][j][k][1][m][m] = 1.0; } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
d_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { <LOOP-START>for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { lhs[i][j][k][1][m][m] = 1.0; } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
id_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { <LOOP-START>for (m = 0; m < 5; m++) { lhs[i][j][k][1][m][m] = 1.0; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2, tmp3)
100
tmp3) for (j = 1; j < grid_points[1]-1; j++) { for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (i = 0; i < grid_points[0]; i++) { tmp1 = 1.0 / u[i][j][k][0]; tmp2 = tmp1 * tmp1; tmp3 = tmp1 * tmp2; /*-------------------------------------------------------------------- c c-------------------------------------------------------------------*/ fjac[ i][ j][ k][0][0] = 0.0; fjac[ i][ j][ k][0][1] = 1.0; fjac[ i][ j][ k][0][2] = 0.0; fjac[ i][ j][ k][0][3] = 0.0; fjac[ i][ j][ k][0][4] = 0.0; fjac[ i][ j][ k][1][0] = -(u[i][j][k][1] * tmp2 * u[i][j][k][1]) + c2 * 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] ) * tmp2; fjac[i][j][k][1][1] = ( 2.0 - c2 ) * ( u[i][j][k][1] / u[i][j][k][0] ); fjac[i][j][k][1][2] = - c2 * ( u[i][j][k][2] * tmp1 ); fjac[i][j][k][1][3] = - c2 * ( u[i][j][k][3] * tmp1 ); fjac[i][j][k][1][4] = c2; fjac[i][j][k][2][0] = - ( u[i][j][k][1]*u[i][j][k][2] ) * tmp2; fjac[i][j][k][2][1] = u[i][j][k][2] * tmp1; fjac[i][j][k][2][2] = u[i][j][k][1] * tmp1; fjac[i][j][k][2][3] = 0.0; fjac[i][j][k][2][4] = 0.0; fjac[i][j][k][3][0] = - ( u[i][j][k][1]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][3][1] = u[i][j][k][3] * tmp1; fjac[i][j][k][3][2] = 0.0; fjac[i][j][k][3][3] = u[i][j][k][1] * tmp1; fjac[i][j][k][3][4] = 0.0; fjac[i][j][k][4][0] = ( c2 * ( 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] ) * tmp2 - c1 * ( u[i][j][k][4] * tmp1 ) ) * ( u[i][j][k][1] * tmp1 ); fjac[i][j][k][4][1] = c1 * u[i][j][k][4] * tmp1 - 0.50 * c2 * ( 3.0*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] ) * tmp2; fjac[i][j][k][4][2] = - c2 * ( u[i][j][k][2]*u[i][j][k][1] ) * tmp2; fjac[i][j][k][4][3] = - c2 * ( u[i][j][k][3]*u[i][j][k][1] ) * tmp2; fjac[i][j][k][4][4] = c1 * ( u[i][j][k][1] * tmp1 ); njac[i][j][k][0][0] = 0.0; njac[i][j][k][0][1] = 0.0; njac[i][j][k][0][2] = 0.0; njac[i][j][k][0][3] = 0.0; njac[i][j][k][0][4] = 0.0; njac[i][j][k][1][0] = - con43 * c3c4 * tmp2 * u[i][j][k][1]; njac[i][j][k][1][1] = con43 * c3c4 * tmp1; njac[i][j][k][1][2] = 0.0; njac[i][j][k][1][3] = 0.0; njac[i][j][k][1][4] = 0.0; njac[i][j][k][2][0] = - c3c4 * tmp2 * u[i][j][k][2]; njac[i][j][k][2][1] = 0.0; njac[i][j][k][2][2] = c3c4 * tmp1; njac[i][j][k][2][3] = 0.0; njac[i][j][k][2][4] = 0.0; njac[i][j][k][3][0] = - c3c4 * tmp2 * u[i][j][k][3]; njac[i][j][k][3][1] = 0.0; njac[i][j][k][3][2] = 0.0; njac[i][j][k][3][3] = c3c4 * tmp1; njac[i][j][k][3][4] = 0.0; njac[i][j][k][4][0] = - ( con43 * c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][1])) - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][2])) - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][3])) - c1345 * tmp2 * u[i][j][k][4]; njac[i][j][k][4][1] = ( con43 * c3c4 - c1345 ) * tmp2 * u[i][j][k][1]; njac[i][j][k][4][2] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][2]; njac[i][j][k][4][3] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][3]; njac[i][j][k][4][4] = ( c1345 ) * tmp1; }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2, tmp3)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2)
100
nd side in x direction c-------------------------------------------------------------------*/ <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { tmp1 = dt * tx1; tmp2 = dt * tx2; lhs[i][j][k][AA][0][0] = - tmp2 * fjac[i-1][j][k][0][0] - tmp1 * njac[i-1][j][k][0][0] - tmp1 * dx1; lhs[i][j][k][AA][0][1] = - tmp2 * fjac[i-1][j][k][0][1] - tmp1 * njac[i-1][j][k][0][1]; lhs[i][j][k][AA][0][2] = - tmp2 * fjac[i-1][j][k][0][2] - tmp1 * njac[i-1][j][k][0][2]; lhs[i][j][k][AA][0][3] = - tmp2 * fjac[i-1][j][k][0][3] - tmp1 * njac[i-1][j][k][0][3]; lhs[i][j][k][AA][0][4] = - tmp2 * fjac[i-1][j][k][0][4] - tmp1 * njac[i-1][j][k][0][4]; lhs[i][j][k][AA][1][0] = - tmp2 * fjac[i-1][j][k][1][0] - tmp1 * njac[i-1][j][k][1][0]; lhs[i][j][k][AA][1][1] = - tmp2 * fjac[i-1][j][k][1][1] - tmp1 * njac[i-1][j][k][1][1] - tmp1 * dx2; lhs[i][j][k][AA][1][2] = - tmp2 * fjac[i-1][j][k][1][2] - tmp1 * njac[i-1][j][k][1][2]; lhs[i][j][k][AA][1][3] = - tmp2 * fjac[i-1][j][k][1][3] - tmp1 * njac[i-1][j][k][1][3]; lhs[i][j][k][AA][1][4] = - tmp2 * fjac[i-1][j][k][1][4] - tmp1 * njac[i-1][j][k][1][4]; lhs[i][j][k][AA][2][0] = - tmp2 * fjac[i-1][j][k][2][0] - tmp1 * njac[i-1][j][k][2][0]; lhs[i][j][k][AA][2][1] = - tmp2 * fjac[i-1][j][k][2][1] - tmp1 * njac[i-1][j][k][2][1]; lhs[i][j][k][AA][2][2] = - tmp2 * fjac[i-1][j][k][2][2] - tmp1 * njac[i-1][j][k][2][2] - tmp1 * dx3; lhs[i][j][k][AA][2][3] = - tmp2 * fjac[i-1][j][k][2][3] - tmp1 * njac[i-1][j][k][2][3]; lhs[i][j][k][AA][2][4] = - tmp2 * fjac[i-1][j][k][2][4] - tmp1 * njac[i-1][j][k][2][4]; lhs[i][j][k][AA][3][0] = - tmp2 * fjac[i-1][j][k][3][0] - tmp1 * njac[i-1][j][k][3][0]; lhs[i][j][k][AA][3][1] = - tmp2 * fjac[i-1][j][k][3][1] - tmp1 * njac[i-1][j][k][3][1]; lhs[i][j][k][AA][3][2] = - tmp2 * fjac[i-1][j][k][3][2] - tmp1 * njac[i-1][j][k][3][2]; lhs[i][j][k][AA][3][3] = - tmp2 * fjac[i-1][j][k][3][3] - tmp1 * njac[i-1][j][k][3][3] - tmp1 * dx4; lhs[i][j][k][AA][3][4] = - tmp2 * fjac[i-1][j][k][3][4] - tmp1 * njac[i-1][j][k][3][4]; lhs[i][j][k][AA][4][0] = - tmp2 * fjac[i-1][j][k][4][0] - tmp1 * njac[i-1][j][k][4][0]; lhs[i][j][k][AA][4][1] = - tmp2 * fjac[i-1][j][k][4][1] - tmp1 * njac[i-1][j][k][4][1]; lhs[i][j][k][AA][4][2] = - tmp2 * fjac[i-1][j][k][4][2] - tmp1 * njac[i-1][j][k][4][2]; lhs[i][j][k][AA][4][3] = - tmp2 * fjac[i-1][j][k][4][3] - tmp1 * njac[i-1][j][k][4][3]; lhs[i][j][k][AA][4][4] = - tmp2 * fjac[i-1][j][k][4][4] - tmp1 * njac[i-1][j][k][4][4] - tmp1 * dx5; lhs[i][j][k][BB][0][0] = 1.0 + tmp1 * 2.0 * njac[i][j][k][0][0] + tmp1 * 2.0 * dx1; lhs[i][j][k][BB][0][1] = tmp1 * 2.0 * njac[i][j][k][0][1]; lhs[i][j][k][BB][0][2] = tmp1 * 2.0 * njac[i][j][k][0][2]; lhs[i][j][k][BB][0][3] = tmp1 * 2.0 * njac[i][j][k][0][3]; lhs[i][j][k][BB][0][4] = tmp1 * 2.0 * njac[i][j][k][0][4]; lhs[i][j][k][BB][1][0] = tmp1 * 2.0 * njac[i][j][k][1][0]; lhs[i][j][k][BB][1][1] = 1.0 + tmp1 * 2.0 * njac[i][j][k][1][1] + tmp1 * 2.0 * dx2; lhs[i][j][k][BB][1][2] = tmp1 * 2.0 * njac[i][j][k][1][2]; lhs[i][j][k][BB][1][3] = tmp1 * 2.0 * njac[i][j][k][1][3]; lhs[i][j][k][BB][1][4] = tmp1 * 2.0 * njac[i][j][k][1][4]; lhs[i][j][k][BB][2][0] = tmp1 * 2.0 * njac[i][j][k][2][0]; lhs[i][j][k][BB][2][1] = tmp1 * 2.0 * njac[i][j][k][2][1]; lhs[i][j][k][BB][2][2] = 1.0 + tmp1 * 2.0 * njac[i][j][k][2][2] + tmp1 * 2.0 * dx3; lhs[i][j][k][BB][2][3] = tmp1 * 2.0 * njac[i][j][k][2][3]; lhs[i][j][k][BB][2][4] = tmp1 * 2.0 * njac[i][j][k][2][4]; lhs[i][j][k][BB][3][0] = tmp1 * 2.0 * njac[i][j][k][3][0]; lhs[i][j][k][BB][3][1] = tmp1 * 2.0 * njac[i][j][k][3][1]; lhs[i][j][k][BB][3][2] = tmp1 * 2.0 * njac[i][j][k][3][2]; lhs[i][j][k][BB][3][3] = 1.0 + tmp1 * 2.0 * njac[i][j][k][3][3] + tmp1 * 2.0 * dx4; lhs[i][j][k][BB][3][4] = tmp1 * 2.0 * njac[i][j][k][3][4]; lhs[i][j][k][BB][4][0] = tmp1 * 2.0 * njac[i][j][k][4][0]; lhs[i][j][k][BB][4][1] = tmp1 * 2.0 * njac[i][j][k][4][1]; lhs[i][j][k][BB][4][2] = tmp1 * 2.0 * njac[i][j][k][4][2]; lhs[i][j][k][BB][4][3] = tmp1 * 2.0 * njac[i][j][k][4][3]; lhs[i][j][k][BB][4][4] = 1.0 + tmp1 * 2.0 * njac[i][j][k][4][4] + tmp1 * 2.0 * dx5; lhs[i][j][k][CC][0][0] = tmp2 * fjac[i+1][j][k][0][0] - tmp1 * njac[i+1][j][k][0][0] - tmp1 * dx1; lhs[i][j][k][CC][0][1] = tmp2 * fjac[i+1][j][k][0][1] - tmp1 * njac[i+1][j][k][0][1]; lhs[i][j][k][CC][0][2] = tmp2 * fjac[i+1][j][k][0][2] - tmp1 * njac[i+1][j][k][0][2]; lhs[i][j][k][CC][0][3] = tmp2 * fjac[i+1][j][k][0][3] - tmp1 * njac[i+1][j][k][0][3]; lhs[i][j][k][CC][0][4] = tmp2 * fjac[i+1][j][k][0][4] - tmp1 * njac[i+1][j][k][0][4]; lhs[i][j][k][CC][1][0] = tmp2 * fjac[i+1][j][k][1][0] - tmp1 * njac[i+1][j][k][1][0]; lhs[i][j][k][CC][1][1] = tmp2 * fjac[i+1][j][k][1][1] - tmp1 * njac[i+1][j][k][1][1] - tmp1 * dx2; lhs[i][j][k][CC][1][2] = tmp2 * fjac[i+1][j][k][1][2] - tmp1 * njac[i+1][j][k][1][2]; lhs[i][j][k][CC][1][3] = tmp2 * fjac[i+1][j][k][1][3] - tmp1 * njac[i+1][j][k][1][3]; lhs[i][j][k][CC][1][4] = tmp2 * fjac[i+1][j][k][1][4] - tmp1 * njac[i+1][j][k][1][4]; lhs[i][j][k][CC][2][0] = tmp2 * fjac[i+1][j][k][2][0] - tmp1 * njac[i+1][j][k][2][0]; lhs[i][j][k][CC][2][1] = tmp2 * fjac[i+1][j][k][2][1] - tmp1 * njac[i+1][j][k][2][1]; lhs[i][j][k][CC][2][2] = tmp2 * fjac[i+1][j][k][2][2] - tmp1 * njac[i+1][j][k][2][2] - tmp1 * dx3; lhs[i][j][k][CC][2][3] = tmp2 * fjac[i+1][j][k][2][3] - tmp1 * njac[i+1][j][k][2][3]; lhs[i][j][k][CC][2][4] = tmp2 * fjac[i+1][j][k][2][4] - tmp1 * njac[i+1][j][k][2][4]; lhs[i][j][k][CC][3][0] = tmp2 * fjac[i+1][j][k][3][0] - tmp1 * njac[i+1][j][k][3][0]; lhs[i][j][k][CC][3][1] = tmp2 * fjac[i+1][j][k][3][1] - tmp1 * njac[i+1][j][k][3][1]; lhs[i][j][k][CC][3][2] = tmp2 * fjac[i+1][j][k][3][2] - tmp1 * njac[i+1][j][k][3][2]; lhs[i][j][k][CC][3][3] = tmp2 * fjac[i+1][j][k][3][3] - tmp1 * njac[i+1][j][k][3][3] - tmp1 * dx4; lhs[i][j][k][CC][3][4] = tmp2 * fjac[i+1][j][k][3][4] - tmp1 * njac[i+1][j][k][3][4]; lhs[i][j][k][CC][4][0] = tmp2 * fjac[i+1][j][k][4][0] - tmp1 * njac[i+1][j][k][4][0]; lhs[i][j][k][CC][4][1] = tmp2 * fjac[i+1][j][k][4][1] - tmp1 * njac[i+1][j][k][4][1]; lhs[i][j][k][CC][4][2] = tmp2 * fjac[i+1][j][k][4][2] - tmp1 * njac[i+1][j][k][4][2]; lhs[i][j][k][CC][4][3] = tmp2 * fjac[i+1][j][k][4][3] - tmp1 * njac[i+1][j][k][4][3]; lhs[i][j][k][CC][4][4] = tmp2 * fjac[i+1][j][k][4][4] - tmp1 * njac[i+1][j][k][4][4] - tmp1 * dx5; }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2, tmp3)
100
, tmp3) for (i = 1; i < grid_points[0]-1; i++) { for (j = 0; j < grid_points[1]; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { tmp1 = 1.0 / u[i][j][k][0]; tmp2 = tmp1 * tmp1; tmp3 = tmp1 * tmp2; fjac[ i][ j][ k][0][0] = 0.0; fjac[ i][ j][ k][0][1] = 0.0; fjac[ i][ j][ k][0][2] = 1.0; fjac[ i][ j][ k][0][3] = 0.0; fjac[ i][ j][ k][0][4] = 0.0; fjac[i][j][k][1][0] = - ( u[i][j][k][1]*u[i][j][k][2] ) * tmp2; fjac[i][j][k][1][1] = u[i][j][k][2] * tmp1; fjac[i][j][k][1][2] = u[i][j][k][1] * tmp1; fjac[i][j][k][1][3] = 0.0; fjac[i][j][k][1][4] = 0.0; fjac[i][j][k][2][0] = - ( u[i][j][k][2]*u[i][j][k][2]*tmp2) + 0.50 * c2 * ( ( 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] ) * tmp2 ); fjac[i][j][k][2][1] = - c2 * u[i][j][k][1] * tmp1; fjac[i][j][k][2][2] = ( 2.0 - c2 ) * u[i][j][k][2] * tmp1; fjac[i][j][k][2][3] = - c2 * u[i][j][k][3] * tmp1; fjac[i][j][k][2][4] = c2; fjac[i][j][k][3][0] = - ( u[i][j][k][2]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][3][1] = 0.0; fjac[i][j][k][3][2] = u[i][j][k][3] * tmp1; fjac[i][j][k][3][3] = u[i][j][k][2] * tmp1; fjac[i][j][k][3][4] = 0.0; fjac[i][j][k][4][0] = ( c2 * ( 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] ) * tmp2 - c1 * u[i][j][k][4] * tmp1 ) * u[i][j][k][2] * tmp1; fjac[i][j][k][4][1] = - c2 * u[i][j][k][1]*u[i][j][k][2] * tmp2; fjac[i][j][k][4][2] = c1 * u[i][j][k][4] * tmp1 - 0.50 * c2 * ( ( u[i][j][k][1]*u[i][j][k][1] + 3.0 * u[i][j][k][2]*u[i][j][k][2] + u[i][j][k][3]*u[i][j][k][3] ) * tmp2 ); fjac[i][j][k][4][3] = - c2 * ( u[i][j][k][2]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][4][4] = c1 * u[i][j][k][2] * tmp1; njac[i][j][k][0][0] = 0.0; njac[i][j][k][0][1] = 0.0; njac[i][j][k][0][2] = 0.0; njac[i][j][k][0][3] = 0.0; njac[i][j][k][0][4] = 0.0; njac[i][j][k][1][0] = - c3c4 * tmp2 * u[i][j][k][1]; njac[i][j][k][1][1] = c3c4 * tmp1; njac[i][j][k][1][2] = 0.0; njac[i][j][k][1][3] = 0.0; njac[i][j][k][1][4] = 0.0; njac[i][j][k][2][0] = - con43 * c3c4 * tmp2 * u[i][j][k][2]; njac[i][j][k][2][1] = 0.0; njac[i][j][k][2][2] = con43 * c3c4 * tmp1; njac[i][j][k][2][3] = 0.0; njac[i][j][k][2][4] = 0.0; njac[i][j][k][3][0] = - c3c4 * tmp2 * u[i][j][k][3]; njac[i][j][k][3][1] = 0.0; njac[i][j][k][3][2] = 0.0; njac[i][j][k][3][3] = c3c4 * tmp1; njac[i][j][k][3][4] = 0.0; njac[i][j][k][4][0] = - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][1])) - ( con43 * c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][2])) - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][3])) - c1345 * tmp2 * u[i][j][k][4]; njac[i][j][k][4][1] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][1]; njac[i][j][k][4][2] = ( con43 * c3c4 - c1345 ) * tmp2 * u[i][j][k][2]; njac[i][j][k][4][3] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][3]; njac[i][j][k][4][4] = ( c1345 ) * tmp1; }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2, tmp3)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2)
100
t hand side in y direction c-------------------------------------------------------------------*/ <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { #pragma omp parallel for private(tmp1, tmp2) for (j = 1; j < grid_points[1]-1; j++) { for (k = 1; k < grid_points[2]-1; k++) { tmp1 = dt * ty1; tmp2 = dt * ty2; lhs[i][j][k][AA][0][0] = - tmp2 * fjac[i][j-1][k][0][0] - tmp1 * njac[i][j-1][k][0][0] - tmp1 * dy1; lhs[i][j][k][AA][0][1] = - tmp2 * fjac[i][j-1][k][0][1] - tmp1 * njac[i][j-1][k][0][1]; lhs[i][j][k][AA][0][2] = - tmp2 * fjac[i][j-1][k][0][2] - tmp1 * njac[i][j-1][k][0][2]; lhs[i][j][k][AA][0][3] = - tmp2 * fjac[i][j-1][k][0][3] - tmp1 * njac[i][j-1][k][0][3]; lhs[i][j][k][AA][0][4] = - tmp2 * fjac[i][j-1][k][0][4] - tmp1 * njac[i][j-1][k][0][4]; lhs[i][j][k][AA][1][0] = - tmp2 * fjac[i][j-1][k][1][0] - tmp1 * njac[i][j-1][k][1][0]; lhs[i][j][k][AA][1][1] = - tmp2 * fjac[i][j-1][k][1][1] - tmp1 * njac[i][j-1][k][1][1] - tmp1 * dy2; lhs[i][j][k][AA][1][2] = - tmp2 * fjac[i][j-1][k][1][2] - tmp1 * njac[i][j-1][k][1][2]; lhs[i][j][k][AA][1][3] = - tmp2 * fjac[i][j-1][k][1][3] - tmp1 * njac[i][j-1][k][1][3]; lhs[i][j][k][AA][1][4] = - tmp2 * fjac[i][j-1][k][1][4] - tmp1 * njac[i][j-1][k][1][4]; lhs[i][j][k][AA][2][0] = - tmp2 * fjac[i][j-1][k][2][0] - tmp1 * njac[i][j-1][k][2][0]; lhs[i][j][k][AA][2][1] = - tmp2 * fjac[i][j-1][k][2][1] - tmp1 * njac[i][j-1][k][2][1]; lhs[i][j][k][AA][2][2] = - tmp2 * fjac[i][j-1][k][2][2] - tmp1 * njac[i][j-1][k][2][2] - tmp1 * dy3; lhs[i][j][k][AA][2][3] = - tmp2 * fjac[i][j-1][k][2][3] - tmp1 * njac[i][j-1][k][2][3]; lhs[i][j][k][AA][2][4] = - tmp2 * fjac[i][j-1][k][2][4] - tmp1 * njac[i][j-1][k][2][4]; lhs[i][j][k][AA][3][0] = - tmp2 * fjac[i][j-1][k][3][0] - tmp1 * njac[i][j-1][k][3][0]; lhs[i][j][k][AA][3][1] = - tmp2 * fjac[i][j-1][k][3][1] - tmp1 * njac[i][j-1][k][3][1]; lhs[i][j][k][AA][3][2] = - tmp2 * fjac[i][j-1][k][3][2] - tmp1 * njac[i][j-1][k][3][2]; lhs[i][j][k][AA][3][3] = - tmp2 * fjac[i][j-1][k][3][3] - tmp1 * njac[i][j-1][k][3][3] - tmp1 * dy4; lhs[i][j][k][AA][3][4] = - tmp2 * fjac[i][j-1][k][3][4] - tmp1 * njac[i][j-1][k][3][4]; lhs[i][j][k][AA][4][0] = - tmp2 * fjac[i][j-1][k][4][0] - tmp1 * njac[i][j-1][k][4][0]; lhs[i][j][k][AA][4][1] = - tmp2 * fjac[i][j-1][k][4][1] - tmp1 * njac[i][j-1][k][4][1]; lhs[i][j][k][AA][4][2] = - tmp2 * fjac[i][j-1][k][4][2] - tmp1 * njac[i][j-1][k][4][2]; lhs[i][j][k][AA][4][3] = - tmp2 * fjac[i][j-1][k][4][3] - tmp1 * njac[i][j-1][k][4][3]; lhs[i][j][k][AA][4][4] = - tmp2 * fjac[i][j-1][k][4][4] - tmp1 * njac[i][j-1][k][4][4] - tmp1 * dy5; lhs[i][j][k][BB][0][0] = 1.0 + tmp1 * 2.0 * njac[i][j][k][0][0] + tmp1 * 2.0 * dy1; lhs[i][j][k][BB][0][1] = tmp1 * 2.0 * njac[i][j][k][0][1]; lhs[i][j][k][BB][0][2] = tmp1 * 2.0 * njac[i][j][k][0][2]; lhs[i][j][k][BB][0][3] = tmp1 * 2.0 * njac[i][j][k][0][3]; lhs[i][j][k][BB][0][4] = tmp1 * 2.0 * njac[i][j][k][0][4]; lhs[i][j][k][BB][1][0] = tmp1 * 2.0 * njac[i][j][k][1][0]; lhs[i][j][k][BB][1][1] = 1.0 + tmp1 * 2.0 * njac[i][j][k][1][1] + tmp1 * 2.0 * dy2; lhs[i][j][k][BB][1][2] = tmp1 * 2.0 * njac[i][j][k][1][2]; lhs[i][j][k][BB][1][3] = tmp1 * 2.0 * njac[i][j][k][1][3]; lhs[i][j][k][BB][1][4] = tmp1 * 2.0 * njac[i][j][k][1][4]; lhs[i][j][k][BB][2][0] = tmp1 * 2.0 * njac[i][j][k][2][0]; lhs[i][j][k][BB][2][1] = tmp1 * 2.0 * njac[i][j][k][2][1]; lhs[i][j][k][BB][2][2] = 1.0 + tmp1 * 2.0 * njac[i][j][k][2][2] + tmp1 * 2.0 * dy3; lhs[i][j][k][BB][2][3] = tmp1 * 2.0 * njac[i][j][k][2][3]; lhs[i][j][k][BB][2][4] = tmp1 * 2.0 * njac[i][j][k][2][4]; lhs[i][j][k][BB][3][0] = tmp1 * 2.0 * njac[i][j][k][3][0]; lhs[i][j][k][BB][3][1] = tmp1 * 2.0 * njac[i][j][k][3][1]; lhs[i][j][k][BB][3][2] = tmp1 * 2.0 * njac[i][j][k][3][2]; lhs[i][j][k][BB][3][3] = 1.0 + tmp1 * 2.0 * njac[i][j][k][3][3] + tmp1 * 2.0 * dy4; lhs[i][j][k][BB][3][4] = tmp1 * 2.0 * njac[i][j][k][3][4]; lhs[i][j][k][BB][4][0] = tmp1 * 2.0 * njac[i][j][k][4][0]; lhs[i][j][k][BB][4][1] = tmp1 * 2.0 * njac[i][j][k][4][1]; lhs[i][j][k][BB][4][2] = tmp1 * 2.0 * njac[i][j][k][4][2]; lhs[i][j][k][BB][4][3] = tmp1 * 2.0 * njac[i][j][k][4][3]; lhs[i][j][k][BB][4][4] = 1.0 + tmp1 * 2.0 * njac[i][j][k][4][4] + tmp1 * 2.0 * dy5; lhs[i][j][k][CC][0][0] = tmp2 * fjac[i][j+1][k][0][0] - tmp1 * njac[i][j+1][k][0][0] - tmp1 * dy1; lhs[i][j][k][CC][0][1] = tmp2 * fjac[i][j+1][k][0][1] - tmp1 * njac[i][j+1][k][0][1]; lhs[i][j][k][CC][0][2] = tmp2 * fjac[i][j+1][k][0][2] - tmp1 * njac[i][j+1][k][0][2]; lhs[i][j][k][CC][0][3] = tmp2 * fjac[i][j+1][k][0][3] - tmp1 * njac[i][j+1][k][0][3]; lhs[i][j][k][CC][0][4] = tmp2 * fjac[i][j+1][k][0][4] - tmp1 * njac[i][j+1][k][0][4]; lhs[i][j][k][CC][1][0] = tmp2 * fjac[i][j+1][k][1][0] - tmp1 * njac[i][j+1][k][1][0]; lhs[i][j][k][CC][1][1] = tmp2 * fjac[i][j+1][k][1][1] - tmp1 * njac[i][j+1][k][1][1] - tmp1 * dy2; lhs[i][j][k][CC][1][2] = tmp2 * fjac[i][j+1][k][1][2] - tmp1 * njac[i][j+1][k][1][2]; lhs[i][j][k][CC][1][3] = tmp2 * fjac[i][j+1][k][1][3] - tmp1 * njac[i][j+1][k][1][3]; lhs[i][j][k][CC][1][4] = tmp2 * fjac[i][j+1][k][1][4] - tmp1 * njac[i][j+1][k][1][4]; lhs[i][j][k][CC][2][0] = tmp2 * fjac[i][j+1][k][2][0] - tmp1 * njac[i][j+1][k][2][0]; lhs[i][j][k][CC][2][1] = tmp2 * fjac[i][j+1][k][2][1] - tmp1 * njac[i][j+1][k][2][1]; lhs[i][j][k][CC][2][2] = tmp2 * fjac[i][j+1][k][2][2] - tmp1 * njac[i][j+1][k][2][2] - tmp1 * dy3; lhs[i][j][k][CC][2][3] = tmp2 * fjac[i][j+1][k][2][3] - tmp1 * njac[i][j+1][k][2][3]; lhs[i][j][k][CC][2][4] = tmp2 * fjac[i][j+1][k][2][4] - tmp1 * njac[i][j+1][k][2][4]; lhs[i][j][k][CC][3][0] = tmp2 * fjac[i][j+1][k][3][0] - tmp1 * njac[i][j+1][k][3][0]; lhs[i][j][k][CC][3][1] = tmp2 * fjac[i][j+1][k][3][1] - tmp1 * njac[i][j+1][k][3][1]; lhs[i][j][k][CC][3][2] = tmp2 * fjac[i][j+1][k][3][2] - tmp1 * njac[i][j+1][k][3][2]; lhs[i][j][k][CC][3][3] = tmp2 * fjac[i][j+1][k][3][3] - tmp1 * njac[i][j+1][k][3][3] - tmp1 * dy4; lhs[i][j][k][CC][3][4] = tmp2 * fjac[i][j+1][k][3][4] - tmp1 * njac[i][j+1][k][3][4]; lhs[i][j][k][CC][4][0] = tmp2 * fjac[i][j+1][k][4][0] - tmp1 * njac[i][j+1][k][4][0]; lhs[i][j][k][CC][4][1] = tmp2 * fjac[i][j+1][k][4][1] - tmp1 * njac[i][j+1][k][4][1]; lhs[i][j][k][CC][4][2] = tmp2 * fjac[i][j+1][k][4][2] - tmp1 * njac[i][j+1][k][4][2]; lhs[i][j][k][CC][4][3] = tmp2 * fjac[i][j+1][k][4][3] - tmp1 * njac[i][j+1][k][4][3]; lhs[i][j][k][CC][4][4] = tmp2 * fjac[i][j+1][k][4][4] - tmp1 * njac[i][j+1][k][4][4] - tmp1 * dy5; } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2)
100
---*/ #pragma omp parallel for private(tmp1, tmp2) for (i = 1; i < grid_points[0]-1; i++) { <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { for (k = 1; k < grid_points[2]-1; k++) { tmp1 = dt * ty1; tmp2 = dt * ty2; lhs[i][j][k][AA][0][0] = - tmp2 * fjac[i][j-1][k][0][0] - tmp1 * njac[i][j-1][k][0][0] - tmp1 * dy1; lhs[i][j][k][AA][0][1] = - tmp2 * fjac[i][j-1][k][0][1] - tmp1 * njac[i][j-1][k][0][1]; lhs[i][j][k][AA][0][2] = - tmp2 * fjac[i][j-1][k][0][2] - tmp1 * njac[i][j-1][k][0][2]; lhs[i][j][k][AA][0][3] = - tmp2 * fjac[i][j-1][k][0][3] - tmp1 * njac[i][j-1][k][0][3]; lhs[i][j][k][AA][0][4] = - tmp2 * fjac[i][j-1][k][0][4] - tmp1 * njac[i][j-1][k][0][4]; lhs[i][j][k][AA][1][0] = - tmp2 * fjac[i][j-1][k][1][0] - tmp1 * njac[i][j-1][k][1][0]; lhs[i][j][k][AA][1][1] = - tmp2 * fjac[i][j-1][k][1][1] - tmp1 * njac[i][j-1][k][1][1] - tmp1 * dy2; lhs[i][j][k][AA][1][2] = - tmp2 * fjac[i][j-1][k][1][2] - tmp1 * njac[i][j-1][k][1][2]; lhs[i][j][k][AA][1][3] = - tmp2 * fjac[i][j-1][k][1][3] - tmp1 * njac[i][j-1][k][1][3]; lhs[i][j][k][AA][1][4] = - tmp2 * fjac[i][j-1][k][1][4] - tmp1 * njac[i][j-1][k][1][4]; lhs[i][j][k][AA][2][0] = - tmp2 * fjac[i][j-1][k][2][0] - tmp1 * njac[i][j-1][k][2][0]; lhs[i][j][k][AA][2][1] = - tmp2 * fjac[i][j-1][k][2][1] - tmp1 * njac[i][j-1][k][2][1]; lhs[i][j][k][AA][2][2] = - tmp2 * fjac[i][j-1][k][2][2] - tmp1 * njac[i][j-1][k][2][2] - tmp1 * dy3; lhs[i][j][k][AA][2][3] = - tmp2 * fjac[i][j-1][k][2][3] - tmp1 * njac[i][j-1][k][2][3]; lhs[i][j][k][AA][2][4] = - tmp2 * fjac[i][j-1][k][2][4] - tmp1 * njac[i][j-1][k][2][4]; lhs[i][j][k][AA][3][0] = - tmp2 * fjac[i][j-1][k][3][0] - tmp1 * njac[i][j-1][k][3][0]; lhs[i][j][k][AA][3][1] = - tmp2 * fjac[i][j-1][k][3][1] - tmp1 * njac[i][j-1][k][3][1]; lhs[i][j][k][AA][3][2] = - tmp2 * fjac[i][j-1][k][3][2] - tmp1 * njac[i][j-1][k][3][2]; lhs[i][j][k][AA][3][3] = - tmp2 * fjac[i][j-1][k][3][3] - tmp1 * njac[i][j-1][k][3][3] - tmp1 * dy4; lhs[i][j][k][AA][3][4] = - tmp2 * fjac[i][j-1][k][3][4] - tmp1 * njac[i][j-1][k][3][4]; lhs[i][j][k][AA][4][0] = - tmp2 * fjac[i][j-1][k][4][0] - tmp1 * njac[i][j-1][k][4][0]; lhs[i][j][k][AA][4][1] = - tmp2 * fjac[i][j-1][k][4][1] - tmp1 * njac[i][j-1][k][4][1]; lhs[i][j][k][AA][4][2] = - tmp2 * fjac[i][j-1][k][4][2] - tmp1 * njac[i][j-1][k][4][2]; lhs[i][j][k][AA][4][3] = - tmp2 * fjac[i][j-1][k][4][3] - tmp1 * njac[i][j-1][k][4][3]; lhs[i][j][k][AA][4][4] = - tmp2 * fjac[i][j-1][k][4][4] - tmp1 * njac[i][j-1][k][4][4] - tmp1 * dy5; lhs[i][j][k][BB][0][0] = 1.0 + tmp1 * 2.0 * njac[i][j][k][0][0] + tmp1 * 2.0 * dy1; lhs[i][j][k][BB][0][1] = tmp1 * 2.0 * njac[i][j][k][0][1]; lhs[i][j][k][BB][0][2] = tmp1 * 2.0 * njac[i][j][k][0][2]; lhs[i][j][k][BB][0][3] = tmp1 * 2.0 * njac[i][j][k][0][3]; lhs[i][j][k][BB][0][4] = tmp1 * 2.0 * njac[i][j][k][0][4]; lhs[i][j][k][BB][1][0] = tmp1 * 2.0 * njac[i][j][k][1][0]; lhs[i][j][k][BB][1][1] = 1.0 + tmp1 * 2.0 * njac[i][j][k][1][1] + tmp1 * 2.0 * dy2; lhs[i][j][k][BB][1][2] = tmp1 * 2.0 * njac[i][j][k][1][2]; lhs[i][j][k][BB][1][3] = tmp1 * 2.0 * njac[i][j][k][1][3]; lhs[i][j][k][BB][1][4] = tmp1 * 2.0 * njac[i][j][k][1][4]; lhs[i][j][k][BB][2][0] = tmp1 * 2.0 * njac[i][j][k][2][0]; lhs[i][j][k][BB][2][1] = tmp1 * 2.0 * njac[i][j][k][2][1]; lhs[i][j][k][BB][2][2] = 1.0 + tmp1 * 2.0 * njac[i][j][k][2][2] + tmp1 * 2.0 * dy3; lhs[i][j][k][BB][2][3] = tmp1 * 2.0 * njac[i][j][k][2][3]; lhs[i][j][k][BB][2][4] = tmp1 * 2.0 * njac[i][j][k][2][4]; lhs[i][j][k][BB][3][0] = tmp1 * 2.0 * njac[i][j][k][3][0]; lhs[i][j][k][BB][3][1] = tmp1 * 2.0 * njac[i][j][k][3][1]; lhs[i][j][k][BB][3][2] = tmp1 * 2.0 * njac[i][j][k][3][2]; lhs[i][j][k][BB][3][3] = 1.0 + tmp1 * 2.0 * njac[i][j][k][3][3] + tmp1 * 2.0 * dy4; lhs[i][j][k][BB][3][4] = tmp1 * 2.0 * njac[i][j][k][3][4]; lhs[i][j][k][BB][4][0] = tmp1 * 2.0 * njac[i][j][k][4][0]; lhs[i][j][k][BB][4][1] = tmp1 * 2.0 * njac[i][j][k][4][1]; lhs[i][j][k][BB][4][2] = tmp1 * 2.0 * njac[i][j][k][4][2]; lhs[i][j][k][BB][4][3] = tmp1 * 2.0 * njac[i][j][k][4][3]; lhs[i][j][k][BB][4][4] = 1.0 + tmp1 * 2.0 * njac[i][j][k][4][4] + tmp1 * 2.0 * dy5; lhs[i][j][k][CC][0][0] = tmp2 * fjac[i][j+1][k][0][0] - tmp1 * njac[i][j+1][k][0][0] - tmp1 * dy1; lhs[i][j][k][CC][0][1] = tmp2 * fjac[i][j+1][k][0][1] - tmp1 * njac[i][j+1][k][0][1]; lhs[i][j][k][CC][0][2] = tmp2 * fjac[i][j+1][k][0][2] - tmp1 * njac[i][j+1][k][0][2]; lhs[i][j][k][CC][0][3] = tmp2 * fjac[i][j+1][k][0][3] - tmp1 * njac[i][j+1][k][0][3]; lhs[i][j][k][CC][0][4] = tmp2 * fjac[i][j+1][k][0][4] - tmp1 * njac[i][j+1][k][0][4]; lhs[i][j][k][CC][1][0] = tmp2 * fjac[i][j+1][k][1][0] - tmp1 * njac[i][j+1][k][1][0]; lhs[i][j][k][CC][1][1] = tmp2 * fjac[i][j+1][k][1][1] - tmp1 * njac[i][j+1][k][1][1] - tmp1 * dy2; lhs[i][j][k][CC][1][2] = tmp2 * fjac[i][j+1][k][1][2] - tmp1 * njac[i][j+1][k][1][2]; lhs[i][j][k][CC][1][3] = tmp2 * fjac[i][j+1][k][1][3] - tmp1 * njac[i][j+1][k][1][3]; lhs[i][j][k][CC][1][4] = tmp2 * fjac[i][j+1][k][1][4] - tmp1 * njac[i][j+1][k][1][4]; lhs[i][j][k][CC][2][0] = tmp2 * fjac[i][j+1][k][2][0] - tmp1 * njac[i][j+1][k][2][0]; lhs[i][j][k][CC][2][1] = tmp2 * fjac[i][j+1][k][2][1] - tmp1 * njac[i][j+1][k][2][1]; lhs[i][j][k][CC][2][2] = tmp2 * fjac[i][j+1][k][2][2] - tmp1 * njac[i][j+1][k][2][2] - tmp1 * dy3; lhs[i][j][k][CC][2][3] = tmp2 * fjac[i][j+1][k][2][3] - tmp1 * njac[i][j+1][k][2][3]; lhs[i][j][k][CC][2][4] = tmp2 * fjac[i][j+1][k][2][4] - tmp1 * njac[i][j+1][k][2][4]; lhs[i][j][k][CC][3][0] = tmp2 * fjac[i][j+1][k][3][0] - tmp1 * njac[i][j+1][k][3][0]; lhs[i][j][k][CC][3][1] = tmp2 * fjac[i][j+1][k][3][1] - tmp1 * njac[i][j+1][k][3][1]; lhs[i][j][k][CC][3][2] = tmp2 * fjac[i][j+1][k][3][2] - tmp1 * njac[i][j+1][k][3][2]; lhs[i][j][k][CC][3][3] = tmp2 * fjac[i][j+1][k][3][3] - tmp1 * njac[i][j+1][k][3][3] - tmp1 * dy4; lhs[i][j][k][CC][3][4] = tmp2 * fjac[i][j+1][k][3][4] - tmp1 * njac[i][j+1][k][3][4]; lhs[i][j][k][CC][4][0] = tmp2 * fjac[i][j+1][k][4][0] - tmp1 * njac[i][j+1][k][4][0]; lhs[i][j][k][CC][4][1] = tmp2 * fjac[i][j+1][k][4][1] - tmp1 * njac[i][j+1][k][4][1]; lhs[i][j][k][CC][4][2] = tmp2 * fjac[i][j+1][k][4][2] - tmp1 * njac[i][j+1][k][4][2]; lhs[i][j][k][CC][4][3] = tmp2 * fjac[i][j+1][k][4][3] - tmp1 * njac[i][j+1][k][4][3]; lhs[i][j][k][CC][4][4] = tmp2 * fjac[i][j+1][k][4][4] - tmp1 * njac[i][j+1][k][4][4] - tmp1 * dy5; } }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2, tmp3)
100
led f) and s jacobians c---------------------------------------------------------------------*/ //<LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for private(tmp1, tmp2, tmp3) for (k = 0; k < grid_points[2]; k++) { tmp1 = 1.0 / u[i][j][k][0]; tmp2 = tmp1 * tmp1; tmp3 = tmp1 * tmp2; fjac[i][j][k][0][0] = 0.0; fjac[i][j][k][0][1] = 0.0; fjac[i][j][k][0][2] = 0.0; fjac[i][j][k][0][3] = 1.0; fjac[i][j][k][0][4] = 0.0; fjac[i][j][k][1][0] = - ( u[i][j][k][1]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][1][1] = u[i][j][k][3] * tmp1; fjac[i][j][k][1][2] = 0.0; fjac[i][j][k][1][3] = u[i][j][k][1] * tmp1; fjac[i][j][k][1][4] = 0.0; fjac[i][j][k][2][0] = - ( u[i][j][k][2]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][2][1] = 0.0; fjac[i][j][k][2][2] = u[i][j][k][3] * tmp1; fjac[i][j][k][2][3] = u[i][j][k][2] * tmp1; fjac[i][j][k][2][4] = 0.0; fjac[i][j][k][3][0] = - (u[i][j][k][3]*u[i][j][k][3] * tmp2 ) + 0.50 * c2 * ( ( 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] ) * tmp2 ); fjac[i][j][k][3][1] = - c2 * u[i][j][k][1] * tmp1; fjac[i][j][k][3][2] = - c2 * u[i][j][k][2] * tmp1; fjac[i][j][k][3][3] = ( 2.0 - c2 ) * u[i][j][k][3] * tmp1; fjac[i][j][k][3][4] = c2; fjac[i][j][k][4][0] = ( c2 * ( 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] ) * tmp2 - c1 * ( u[i][j][k][4] * tmp1 ) ) * ( u[i][j][k][3] * tmp1 ); fjac[i][j][k][4][1] = - c2 * ( u[i][j][k][1]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][4][2] = - c2 * ( u[i][j][k][2]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][4][3] = c1 * ( u[i][j][k][4] * tmp1 ) - 0.50 * c2 * ( ( u[i][j][k][1]*u[i][j][k][1] + u[i][j][k][2]*u[i][j][k][2] + 3.0*u[i][j][k][3]*u[i][j][k][3] ) * tmp2 ); fjac[i][j][k][4][4] = c1 * u[i][j][k][3] * tmp1; njac[i][j][k][0][0] = 0.0; njac[i][j][k][0][1] = 0.0; njac[i][j][k][0][2] = 0.0; njac[i][j][k][0][3] = 0.0; njac[i][j][k][0][4] = 0.0; njac[i][j][k][1][0] = - c3c4 * tmp2 * u[i][j][k][1]; njac[i][j][k][1][1] = c3c4 * tmp1; njac[i][j][k][1][2] = 0.0; njac[i][j][k][1][3] = 0.0; njac[i][j][k][1][4] = 0.0; njac[i][j][k][2][0] = - c3c4 * tmp2 * u[i][j][k][2]; njac[i][j][k][2][1] = 0.0; njac[i][j][k][2][2] = c3c4 * tmp1; njac[i][j][k][2][3] = 0.0; njac[i][j][k][2][4] = 0.0; njac[i][j][k][3][0] = - con43 * c3c4 * tmp2 * u[i][j][k][3]; njac[i][j][k][3][1] = 0.0; njac[i][j][k][3][2] = 0.0; njac[i][j][k][3][3] = con43 * c3 * c4 * tmp1; njac[i][j][k][3][4] = 0.0; njac[i][j][k][4][0] = - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][1])) - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][2])) - ( con43 * c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][3])) - c1345 * tmp2 * u[i][j][k][4]; njac[i][j][k][4][1] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][1]; njac[i][j][k][4][2] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][2]; njac[i][j][k][4][3] = ( con43 * c3c4 - c1345 ) * tmp2 * u[i][j][k][3]; njac[i][j][k][4][4] = ( c1345 )* tmp1; } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2, tmp3) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2, tmp3)
100
mp3) for (i = 1; i < grid_points[0]-1; i++) { for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 0; k < grid_points[2]; k++) { tmp1 = 1.0 / u[i][j][k][0]; tmp2 = tmp1 * tmp1; tmp3 = tmp1 * tmp2; fjac[i][j][k][0][0] = 0.0; fjac[i][j][k][0][1] = 0.0; fjac[i][j][k][0][2] = 0.0; fjac[i][j][k][0][3] = 1.0; fjac[i][j][k][0][4] = 0.0; fjac[i][j][k][1][0] = - ( u[i][j][k][1]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][1][1] = u[i][j][k][3] * tmp1; fjac[i][j][k][1][2] = 0.0; fjac[i][j][k][1][3] = u[i][j][k][1] * tmp1; fjac[i][j][k][1][4] = 0.0; fjac[i][j][k][2][0] = - ( u[i][j][k][2]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][2][1] = 0.0; fjac[i][j][k][2][2] = u[i][j][k][3] * tmp1; fjac[i][j][k][2][3] = u[i][j][k][2] * tmp1; fjac[i][j][k][2][4] = 0.0; fjac[i][j][k][3][0] = - (u[i][j][k][3]*u[i][j][k][3] * tmp2 ) + 0.50 * c2 * ( ( 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] ) * tmp2 ); fjac[i][j][k][3][1] = - c2 * u[i][j][k][1] * tmp1; fjac[i][j][k][3][2] = - c2 * u[i][j][k][2] * tmp1; fjac[i][j][k][3][3] = ( 2.0 - c2 ) * u[i][j][k][3] * tmp1; fjac[i][j][k][3][4] = c2; fjac[i][j][k][4][0] = ( c2 * ( 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] ) * tmp2 - c1 * ( u[i][j][k][4] * tmp1 ) ) * ( u[i][j][k][3] * tmp1 ); fjac[i][j][k][4][1] = - c2 * ( u[i][j][k][1]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][4][2] = - c2 * ( u[i][j][k][2]*u[i][j][k][3] ) * tmp2; fjac[i][j][k][4][3] = c1 * ( u[i][j][k][4] * tmp1 ) - 0.50 * c2 * ( ( u[i][j][k][1]*u[i][j][k][1] + u[i][j][k][2]*u[i][j][k][2] + 3.0*u[i][j][k][3]*u[i][j][k][3] ) * tmp2 ); fjac[i][j][k][4][4] = c1 * u[i][j][k][3] * tmp1; njac[i][j][k][0][0] = 0.0; njac[i][j][k][0][1] = 0.0; njac[i][j][k][0][2] = 0.0; njac[i][j][k][0][3] = 0.0; njac[i][j][k][0][4] = 0.0; njac[i][j][k][1][0] = - c3c4 * tmp2 * u[i][j][k][1]; njac[i][j][k][1][1] = c3c4 * tmp1; njac[i][j][k][1][2] = 0.0; njac[i][j][k][1][3] = 0.0; njac[i][j][k][1][4] = 0.0; njac[i][j][k][2][0] = - c3c4 * tmp2 * u[i][j][k][2]; njac[i][j][k][2][1] = 0.0; njac[i][j][k][2][2] = c3c4 * tmp1; njac[i][j][k][2][3] = 0.0; njac[i][j][k][2][4] = 0.0; njac[i][j][k][3][0] = - con43 * c3c4 * tmp2 * u[i][j][k][3]; njac[i][j][k][3][1] = 0.0; njac[i][j][k][3][2] = 0.0; njac[i][j][k][3][3] = con43 * c3 * c4 * tmp1; njac[i][j][k][3][4] = 0.0; njac[i][j][k][4][0] = - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][1])) - ( c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][2])) - ( con43 * c3c4 - c1345 ) * tmp3 * (pow2(u[i][j][k][3])) - c1345 * tmp2 * u[i][j][k][4]; njac[i][j][k][4][1] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][1]; njac[i][j][k][4][2] = ( c3c4 - c1345 ) * tmp2 * u[i][j][k][2]; njac[i][j][k][4][3] = ( con43 * c3c4 - c1345 ) * tmp2 * u[i][j][k][3]; njac[i][j][k][4][4] = ( c1345 )* tmp1; }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2, tmp3)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2)
100
t hand side in z direction c-------------------------------------------------------------------*/ <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { #pragma omp parallel for private(tmp1, tmp2) for (j = 1; j < grid_points[1]-1; j++) { for (k = 1; k < grid_points[2]-1; k++) { tmp1 = dt * tz1; tmp2 = dt * tz2; lhs[i][j][k][AA][0][0] = - tmp2 * fjac[i][j][k-1][0][0] - tmp1 * njac[i][j][k-1][0][0] - tmp1 * dz1; lhs[i][j][k][AA][0][1] = - tmp2 * fjac[i][j][k-1][0][1] - tmp1 * njac[i][j][k-1][0][1]; lhs[i][j][k][AA][0][2] = - tmp2 * fjac[i][j][k-1][0][2] - tmp1 * njac[i][j][k-1][0][2]; lhs[i][j][k][AA][0][3] = - tmp2 * fjac[i][j][k-1][0][3] - tmp1 * njac[i][j][k-1][0][3]; lhs[i][j][k][AA][0][4] = - tmp2 * fjac[i][j][k-1][0][4] - tmp1 * njac[i][j][k-1][0][4]; lhs[i][j][k][AA][1][0] = - tmp2 * fjac[i][j][k-1][1][0] - tmp1 * njac[i][j][k-1][1][0]; lhs[i][j][k][AA][1][1] = - tmp2 * fjac[i][j][k-1][1][1] - tmp1 * njac[i][j][k-1][1][1] - tmp1 * dz2; lhs[i][j][k][AA][1][2] = - tmp2 * fjac[i][j][k-1][1][2] - tmp1 * njac[i][j][k-1][1][2]; lhs[i][j][k][AA][1][3] = - tmp2 * fjac[i][j][k-1][1][3] - tmp1 * njac[i][j][k-1][1][3]; lhs[i][j][k][AA][1][4] = - tmp2 * fjac[i][j][k-1][1][4] - tmp1 * njac[i][j][k-1][1][4]; lhs[i][j][k][AA][2][0] = - tmp2 * fjac[i][j][k-1][2][0] - tmp1 * njac[i][j][k-1][2][0]; lhs[i][j][k][AA][2][1] = - tmp2 * fjac[i][j][k-1][2][1] - tmp1 * njac[i][j][k-1][2][1]; lhs[i][j][k][AA][2][2] = - tmp2 * fjac[i][j][k-1][2][2] - tmp1 * njac[i][j][k-1][2][2] - tmp1 * dz3; lhs[i][j][k][AA][2][3] = - tmp2 * fjac[i][j][k-1][2][3] - tmp1 * njac[i][j][k-1][2][3]; lhs[i][j][k][AA][2][4] = - tmp2 * fjac[i][j][k-1][2][4] - tmp1 * njac[i][j][k-1][2][4]; lhs[i][j][k][AA][3][0] = - tmp2 * fjac[i][j][k-1][3][0] - tmp1 * njac[i][j][k-1][3][0]; lhs[i][j][k][AA][3][1] = - tmp2 * fjac[i][j][k-1][3][1] - tmp1 * njac[i][j][k-1][3][1]; lhs[i][j][k][AA][3][2] = - tmp2 * fjac[i][j][k-1][3][2] - tmp1 * njac[i][j][k-1][3][2]; lhs[i][j][k][AA][3][3] = - tmp2 * fjac[i][j][k-1][3][3] - tmp1 * njac[i][j][k-1][3][3] - tmp1 * dz4; lhs[i][j][k][AA][3][4] = - tmp2 * fjac[i][j][k-1][3][4] - tmp1 * njac[i][j][k-1][3][4]; lhs[i][j][k][AA][4][0] = - tmp2 * fjac[i][j][k-1][4][0] - tmp1 * njac[i][j][k-1][4][0]; lhs[i][j][k][AA][4][1] = - tmp2 * fjac[i][j][k-1][4][1] - tmp1 * njac[i][j][k-1][4][1]; lhs[i][j][k][AA][4][2] = - tmp2 * fjac[i][j][k-1][4][2] - tmp1 * njac[i][j][k-1][4][2]; lhs[i][j][k][AA][4][3] = - tmp2 * fjac[i][j][k-1][4][3] - tmp1 * njac[i][j][k-1][4][3]; lhs[i][j][k][AA][4][4] = - tmp2 * fjac[i][j][k-1][4][4] - tmp1 * njac[i][j][k-1][4][4] - tmp1 * dz5; lhs[i][j][k][BB][0][0] = 1.0 + tmp1 * 2.0 * njac[i][j][k][0][0] + tmp1 * 2.0 * dz1; lhs[i][j][k][BB][0][1] = tmp1 * 2.0 * njac[i][j][k][0][1]; lhs[i][j][k][BB][0][2] = tmp1 * 2.0 * njac[i][j][k][0][2]; lhs[i][j][k][BB][0][3] = tmp1 * 2.0 * njac[i][j][k][0][3]; lhs[i][j][k][BB][0][4] = tmp1 * 2.0 * njac[i][j][k][0][4]; lhs[i][j][k][BB][1][0] = tmp1 * 2.0 * njac[i][j][k][1][0]; lhs[i][j][k][BB][1][1] = 1.0 + tmp1 * 2.0 * njac[i][j][k][1][1] + tmp1 * 2.0 * dz2; lhs[i][j][k][BB][1][2] = tmp1 * 2.0 * njac[i][j][k][1][2]; lhs[i][j][k][BB][1][3] = tmp1 * 2.0 * njac[i][j][k][1][3]; lhs[i][j][k][BB][1][4] = tmp1 * 2.0 * njac[i][j][k][1][4]; lhs[i][j][k][BB][2][0] = tmp1 * 2.0 * njac[i][j][k][2][0]; lhs[i][j][k][BB][2][1] = tmp1 * 2.0 * njac[i][j][k][2][1]; lhs[i][j][k][BB][2][2] = 1.0 + tmp1 * 2.0 * njac[i][j][k][2][2] + tmp1 * 2.0 * dz3; lhs[i][j][k][BB][2][3] = tmp1 * 2.0 * njac[i][j][k][2][3]; lhs[i][j][k][BB][2][4] = tmp1 * 2.0 * njac[i][j][k][2][4]; lhs[i][j][k][BB][3][0] = tmp1 * 2.0 * njac[i][j][k][3][0]; lhs[i][j][k][BB][3][1] = tmp1 * 2.0 * njac[i][j][k][3][1]; lhs[i][j][k][BB][3][2] = tmp1 * 2.0 * njac[i][j][k][3][2]; lhs[i][j][k][BB][3][3] = 1.0 + tmp1 * 2.0 * njac[i][j][k][3][3] + tmp1 * 2.0 * dz4; lhs[i][j][k][BB][3][4] = tmp1 * 2.0 * njac[i][j][k][3][4]; lhs[i][j][k][BB][4][0] = tmp1 * 2.0 * njac[i][j][k][4][0]; lhs[i][j][k][BB][4][1] = tmp1 * 2.0 * njac[i][j][k][4][1]; lhs[i][j][k][BB][4][2] = tmp1 * 2.0 * njac[i][j][k][4][2]; lhs[i][j][k][BB][4][3] = tmp1 * 2.0 * njac[i][j][k][4][3]; lhs[i][j][k][BB][4][4] = 1.0 + tmp1 * 2.0 * njac[i][j][k][4][4] + tmp1 * 2.0 * dz5; lhs[i][j][k][CC][0][0] = tmp2 * fjac[i][j][k+1][0][0] - tmp1 * njac[i][j][k+1][0][0] - tmp1 * dz1; lhs[i][j][k][CC][0][1] = tmp2 * fjac[i][j][k+1][0][1] - tmp1 * njac[i][j][k+1][0][1]; lhs[i][j][k][CC][0][2] = tmp2 * fjac[i][j][k+1][0][2] - tmp1 * njac[i][j][k+1][0][2]; lhs[i][j][k][CC][0][3] = tmp2 * fjac[i][j][k+1][0][3] - tmp1 * njac[i][j][k+1][0][3]; lhs[i][j][k][CC][0][4] = tmp2 * fjac[i][j][k+1][0][4] - tmp1 * njac[i][j][k+1][0][4]; lhs[i][j][k][CC][1][0] = tmp2 * fjac[i][j][k+1][1][0] - tmp1 * njac[i][j][k+1][1][0]; lhs[i][j][k][CC][1][1] = tmp2 * fjac[i][j][k+1][1][1] - tmp1 * njac[i][j][k+1][1][1] - tmp1 * dz2; lhs[i][j][k][CC][1][2] = tmp2 * fjac[i][j][k+1][1][2] - tmp1 * njac[i][j][k+1][1][2]; lhs[i][j][k][CC][1][3] = tmp2 * fjac[i][j][k+1][1][3] - tmp1 * njac[i][j][k+1][1][3]; lhs[i][j][k][CC][1][4] = tmp2 * fjac[i][j][k+1][1][4] - tmp1 * njac[i][j][k+1][1][4]; lhs[i][j][k][CC][2][0] = tmp2 * fjac[i][j][k+1][2][0] - tmp1 * njac[i][j][k+1][2][0]; lhs[i][j][k][CC][2][1] = tmp2 * fjac[i][j][k+1][2][1] - tmp1 * njac[i][j][k+1][2][1]; lhs[i][j][k][CC][2][2] = tmp2 * fjac[i][j][k+1][2][2] - tmp1 * njac[i][j][k+1][2][2] - tmp1 * dz3; lhs[i][j][k][CC][2][3] = tmp2 * fjac[i][j][k+1][2][3] - tmp1 * njac[i][j][k+1][2][3]; lhs[i][j][k][CC][2][4] = tmp2 * fjac[i][j][k+1][2][4] - tmp1 * njac[i][j][k+1][2][4]; lhs[i][j][k][CC][3][0] = tmp2 * fjac[i][j][k+1][3][0] - tmp1 * njac[i][j][k+1][3][0]; lhs[i][j][k][CC][3][1] = tmp2 * fjac[i][j][k+1][3][1] - tmp1 * njac[i][j][k+1][3][1]; lhs[i][j][k][CC][3][2] = tmp2 * fjac[i][j][k+1][3][2] - tmp1 * njac[i][j][k+1][3][2]; lhs[i][j][k][CC][3][3] = tmp2 * fjac[i][j][k+1][3][3] - tmp1 * njac[i][j][k+1][3][3] - tmp1 * dz4; lhs[i][j][k][CC][3][4] = tmp2 * fjac[i][j][k+1][3][4] - tmp1 * njac[i][j][k+1][3][4]; lhs[i][j][k][CC][4][0] = tmp2 * fjac[i][j][k+1][4][0] - tmp1 * njac[i][j][k+1][4][0]; lhs[i][j][k][CC][4][1] = tmp2 * fjac[i][j][k+1][4][1] - tmp1 * njac[i][j][k+1][4][1]; lhs[i][j][k][CC][4][2] = tmp2 * fjac[i][j][k+1][4][2] - tmp1 * njac[i][j][k+1][4][2]; lhs[i][j][k][CC][4][3] = tmp2 * fjac[i][j][k+1][4][3] - tmp1 * njac[i][j][k+1][4][3]; lhs[i][j][k][CC][4][4] = tmp2 * fjac[i][j][k+1][4][4] - tmp1 * njac[i][j][k+1][4][4] - tmp1 * dz5; } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(tmp1, tmp2)
100
--*/ #pragma omp parallel for private(tmp1, tmp2) for (i = 1; i < grid_points[0]-1; i++) { <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { for (k = 1; k < grid_points[2]-1; k++) { tmp1 = dt * tz1; tmp2 = dt * tz2; lhs[i][j][k][AA][0][0] = - tmp2 * fjac[i][j][k-1][0][0] - tmp1 * njac[i][j][k-1][0][0] - tmp1 * dz1; lhs[i][j][k][AA][0][1] = - tmp2 * fjac[i][j][k-1][0][1] - tmp1 * njac[i][j][k-1][0][1]; lhs[i][j][k][AA][0][2] = - tmp2 * fjac[i][j][k-1][0][2] - tmp1 * njac[i][j][k-1][0][2]; lhs[i][j][k][AA][0][3] = - tmp2 * fjac[i][j][k-1][0][3] - tmp1 * njac[i][j][k-1][0][3]; lhs[i][j][k][AA][0][4] = - tmp2 * fjac[i][j][k-1][0][4] - tmp1 * njac[i][j][k-1][0][4]; lhs[i][j][k][AA][1][0] = - tmp2 * fjac[i][j][k-1][1][0] - tmp1 * njac[i][j][k-1][1][0]; lhs[i][j][k][AA][1][1] = - tmp2 * fjac[i][j][k-1][1][1] - tmp1 * njac[i][j][k-1][1][1] - tmp1 * dz2; lhs[i][j][k][AA][1][2] = - tmp2 * fjac[i][j][k-1][1][2] - tmp1 * njac[i][j][k-1][1][2]; lhs[i][j][k][AA][1][3] = - tmp2 * fjac[i][j][k-1][1][3] - tmp1 * njac[i][j][k-1][1][3]; lhs[i][j][k][AA][1][4] = - tmp2 * fjac[i][j][k-1][1][4] - tmp1 * njac[i][j][k-1][1][4]; lhs[i][j][k][AA][2][0] = - tmp2 * fjac[i][j][k-1][2][0] - tmp1 * njac[i][j][k-1][2][0]; lhs[i][j][k][AA][2][1] = - tmp2 * fjac[i][j][k-1][2][1] - tmp1 * njac[i][j][k-1][2][1]; lhs[i][j][k][AA][2][2] = - tmp2 * fjac[i][j][k-1][2][2] - tmp1 * njac[i][j][k-1][2][2] - tmp1 * dz3; lhs[i][j][k][AA][2][3] = - tmp2 * fjac[i][j][k-1][2][3] - tmp1 * njac[i][j][k-1][2][3]; lhs[i][j][k][AA][2][4] = - tmp2 * fjac[i][j][k-1][2][4] - tmp1 * njac[i][j][k-1][2][4]; lhs[i][j][k][AA][3][0] = - tmp2 * fjac[i][j][k-1][3][0] - tmp1 * njac[i][j][k-1][3][0]; lhs[i][j][k][AA][3][1] = - tmp2 * fjac[i][j][k-1][3][1] - tmp1 * njac[i][j][k-1][3][1]; lhs[i][j][k][AA][3][2] = - tmp2 * fjac[i][j][k-1][3][2] - tmp1 * njac[i][j][k-1][3][2]; lhs[i][j][k][AA][3][3] = - tmp2 * fjac[i][j][k-1][3][3] - tmp1 * njac[i][j][k-1][3][3] - tmp1 * dz4; lhs[i][j][k][AA][3][4] = - tmp2 * fjac[i][j][k-1][3][4] - tmp1 * njac[i][j][k-1][3][4]; lhs[i][j][k][AA][4][0] = - tmp2 * fjac[i][j][k-1][4][0] - tmp1 * njac[i][j][k-1][4][0]; lhs[i][j][k][AA][4][1] = - tmp2 * fjac[i][j][k-1][4][1] - tmp1 * njac[i][j][k-1][4][1]; lhs[i][j][k][AA][4][2] = - tmp2 * fjac[i][j][k-1][4][2] - tmp1 * njac[i][j][k-1][4][2]; lhs[i][j][k][AA][4][3] = - tmp2 * fjac[i][j][k-1][4][3] - tmp1 * njac[i][j][k-1][4][3]; lhs[i][j][k][AA][4][4] = - tmp2 * fjac[i][j][k-1][4][4] - tmp1 * njac[i][j][k-1][4][4] - tmp1 * dz5; lhs[i][j][k][BB][0][0] = 1.0 + tmp1 * 2.0 * njac[i][j][k][0][0] + tmp1 * 2.0 * dz1; lhs[i][j][k][BB][0][1] = tmp1 * 2.0 * njac[i][j][k][0][1]; lhs[i][j][k][BB][0][2] = tmp1 * 2.0 * njac[i][j][k][0][2]; lhs[i][j][k][BB][0][3] = tmp1 * 2.0 * njac[i][j][k][0][3]; lhs[i][j][k][BB][0][4] = tmp1 * 2.0 * njac[i][j][k][0][4]; lhs[i][j][k][BB][1][0] = tmp1 * 2.0 * njac[i][j][k][1][0]; lhs[i][j][k][BB][1][1] = 1.0 + tmp1 * 2.0 * njac[i][j][k][1][1] + tmp1 * 2.0 * dz2; lhs[i][j][k][BB][1][2] = tmp1 * 2.0 * njac[i][j][k][1][2]; lhs[i][j][k][BB][1][3] = tmp1 * 2.0 * njac[i][j][k][1][3]; lhs[i][j][k][BB][1][4] = tmp1 * 2.0 * njac[i][j][k][1][4]; lhs[i][j][k][BB][2][0] = tmp1 * 2.0 * njac[i][j][k][2][0]; lhs[i][j][k][BB][2][1] = tmp1 * 2.0 * njac[i][j][k][2][1]; lhs[i][j][k][BB][2][2] = 1.0 + tmp1 * 2.0 * njac[i][j][k][2][2] + tmp1 * 2.0 * dz3; lhs[i][j][k][BB][2][3] = tmp1 * 2.0 * njac[i][j][k][2][3]; lhs[i][j][k][BB][2][4] = tmp1 * 2.0 * njac[i][j][k][2][4]; lhs[i][j][k][BB][3][0] = tmp1 * 2.0 * njac[i][j][k][3][0]; lhs[i][j][k][BB][3][1] = tmp1 * 2.0 * njac[i][j][k][3][1]; lhs[i][j][k][BB][3][2] = tmp1 * 2.0 * njac[i][j][k][3][2]; lhs[i][j][k][BB][3][3] = 1.0 + tmp1 * 2.0 * njac[i][j][k][3][3] + tmp1 * 2.0 * dz4; lhs[i][j][k][BB][3][4] = tmp1 * 2.0 * njac[i][j][k][3][4]; lhs[i][j][k][BB][4][0] = tmp1 * 2.0 * njac[i][j][k][4][0]; lhs[i][j][k][BB][4][1] = tmp1 * 2.0 * njac[i][j][k][4][1]; lhs[i][j][k][BB][4][2] = tmp1 * 2.0 * njac[i][j][k][4][2]; lhs[i][j][k][BB][4][3] = tmp1 * 2.0 * njac[i][j][k][4][3]; lhs[i][j][k][BB][4][4] = 1.0 + tmp1 * 2.0 * njac[i][j][k][4][4] + tmp1 * 2.0 * dz5; lhs[i][j][k][CC][0][0] = tmp2 * fjac[i][j][k+1][0][0] - tmp1 * njac[i][j][k+1][0][0] - tmp1 * dz1; lhs[i][j][k][CC][0][1] = tmp2 * fjac[i][j][k+1][0][1] - tmp1 * njac[i][j][k+1][0][1]; lhs[i][j][k][CC][0][2] = tmp2 * fjac[i][j][k+1][0][2] - tmp1 * njac[i][j][k+1][0][2]; lhs[i][j][k][CC][0][3] = tmp2 * fjac[i][j][k+1][0][3] - tmp1 * njac[i][j][k+1][0][3]; lhs[i][j][k][CC][0][4] = tmp2 * fjac[i][j][k+1][0][4] - tmp1 * njac[i][j][k+1][0][4]; lhs[i][j][k][CC][1][0] = tmp2 * fjac[i][j][k+1][1][0] - tmp1 * njac[i][j][k+1][1][0]; lhs[i][j][k][CC][1][1] = tmp2 * fjac[i][j][k+1][1][1] - tmp1 * njac[i][j][k+1][1][1] - tmp1 * dz2; lhs[i][j][k][CC][1][2] = tmp2 * fjac[i][j][k+1][1][2] - tmp1 * njac[i][j][k+1][1][2]; lhs[i][j][k][CC][1][3] = tmp2 * fjac[i][j][k+1][1][3] - tmp1 * njac[i][j][k+1][1][3]; lhs[i][j][k][CC][1][4] = tmp2 * fjac[i][j][k+1][1][4] - tmp1 * njac[i][j][k+1][1][4]; lhs[i][j][k][CC][2][0] = tmp2 * fjac[i][j][k+1][2][0] - tmp1 * njac[i][j][k+1][2][0]; lhs[i][j][k][CC][2][1] = tmp2 * fjac[i][j][k+1][2][1] - tmp1 * njac[i][j][k+1][2][1]; lhs[i][j][k][CC][2][2] = tmp2 * fjac[i][j][k+1][2][2] - tmp1 * njac[i][j][k+1][2][2] - tmp1 * dz3; lhs[i][j][k][CC][2][3] = tmp2 * fjac[i][j][k+1][2][3] - tmp1 * njac[i][j][k+1][2][3]; lhs[i][j][k][CC][2][4] = tmp2 * fjac[i][j][k+1][2][4] - tmp1 * njac[i][j][k+1][2][4]; lhs[i][j][k][CC][3][0] = tmp2 * fjac[i][j][k+1][3][0] - tmp1 * njac[i][j][k+1][3][0]; lhs[i][j][k][CC][3][1] = tmp2 * fjac[i][j][k+1][3][1] - tmp1 * njac[i][j][k+1][3][1]; lhs[i][j][k][CC][3][2] = tmp2 * fjac[i][j][k+1][3][2] - tmp1 * njac[i][j][k+1][3][2]; lhs[i][j][k][CC][3][3] = tmp2 * fjac[i][j][k+1][3][3] - tmp1 * njac[i][j][k+1][3][3] - tmp1 * dz4; lhs[i][j][k][CC][3][4] = tmp2 * fjac[i][j][k+1][3][4] - tmp1 * njac[i][j][k+1][3][4]; lhs[i][j][k][CC][4][0] = tmp2 * fjac[i][j][k+1][4][0] - tmp1 * njac[i][j][k+1][4][0]; lhs[i][j][k][CC][4][1] = tmp2 * fjac[i][j][k+1][4][1] - tmp1 * njac[i][j][k+1][4][1]; lhs[i][j][k][CC][4][2] = tmp2 * fjac[i][j][k+1][4][2] - tmp1 * njac[i][j][k+1][4][2]; lhs[i][j][k][CC][4][3] = tmp2 * fjac[i][j][k+1][4][3] - tmp1 * njac[i][j][k+1][4][3]; lhs[i][j][k][CC][4][4] = tmp2 * fjac[i][j][k+1][4][4] - tmp1 * njac[i][j][k+1][4][4] - tmp1 * dz5; } }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp1, tmp2)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(rho_inv)
100
and the speed of sound. c-------------------------------------------------------------------*/ <LOOP-START>for (i = 0; i < grid_points[0]; i++) { #pragma omp parallel for private(rho_inv) for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for private(rho_inv) for (k = 0; k < grid_points[2]; k++) { rho_inv = 1.0/u[i][j][k][0]; rho_i[i][j][k] = rho_inv; us[i][j][k] = u[i][j][k][1] * rho_inv; vs[i][j][k] = u[i][j][k][2] * rho_inv; ws[i][j][k] = u[i][j][k][3] * rho_inv; square[i][j][k] = 0.5 * (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] ) * rho_inv; qs[i][j][k] = square[i][j][k] * rho_inv; } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(rho_inv)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(rho_inv)
100
---------*/ #pragma omp parallel for private(rho_inv) for (i = 0; i < grid_points[0]; i++) { <LOOP-START>for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for private(rho_inv) for (k = 0; k < grid_points[2]; k++) { rho_inv = 1.0/u[i][j][k][0]; rho_i[i][j][k] = rho_inv; us[i][j][k] = u[i][j][k][1] * rho_inv; vs[i][j][k] = u[i][j][k][2] * rho_inv; ws[i][j][k] = u[i][j][k][3] * rho_inv; square[i][j][k] = 0.5 * (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] ) * rho_inv; qs[i][j][k] = square[i][j][k] * rho_inv; } }<LOOP-END> <OMP-START>#pragma omp parallel for private(rho_inv)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(rho_inv)
100
++) { #pragma omp parallel for private(rho_inv) for (j = 0; j < grid_points[1]; j++) { <LOOP-START>for (k = 0; k < grid_points[2]; k++) { rho_inv = 1.0/u[i][j][k][0]; rho_i[i][j][k] = rho_inv; us[i][j][k] = u[i][j][k][1] * rho_inv; vs[i][j][k] = u[i][j][k][2] * rho_inv; ws[i][j][k] = u[i][j][k][3] * rho_inv; square[i][j][k] = 0.5 * (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] ) * rho_inv; qs[i][j][k] = square[i][j][k] * rho_inv; }<LOOP-END> <OMP-START>#pragma omp parallel for private(rho_inv)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
undary c-------------------------------------------------------------------*/ <LOOP-START>for (i = 0; i < grid_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = forcing[i][j][k][m]; } } } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
------------------------*/ #pragma omp parallel for for (i = 0; i < grid_points[0]; i++) { <LOOP-START>for (j = 0; j < grid_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = forcing[i][j][k][m]; } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
d_points[0]; i++) { #pragma omp parallel for for (j = 0; j < grid_points[1]; j++) { <LOOP-START>for (k = 0; k < grid_points[2]; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = forcing[i][j][k][m]; } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
id_points[1]; j++) { #pragma omp parallel for for (k = 0; k < grid_points[2]; k++) { <LOOP-START>for (m = 0; m < 5; m++) { rhs[i][j][k][m] = forcing[i][j][k][m]; }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(uijk, up1, um1)
100
mpute xi-direction fluxes c-------------------------------------------------------------------*/ <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { #pragma omp parallel for private(uijk, up1, um1) for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for private(uijk, up1, um1) for (k = 1; k < grid_points[2]-1; k++) { uijk = us[i][j][k]; up1 = us[i+1][j][k]; um1 = us[i-1][j][k]; rhs[i][j][k][0] = rhs[i][j][k][0] + dx1tx1 * (u[i+1][j][k][0] - 2.0*u[i][j][k][0] + u[i-1][j][k][0]) - tx2 * (u[i+1][j][k][1] - u[i-1][j][k][1]); rhs[i][j][k][1] = rhs[i][j][k][1] + dx2tx1 * (u[i+1][j][k][1] - 2.0*u[i][j][k][1] + u[i-1][j][k][1]) + xxcon2*con43 * (up1 - 2.0*uijk + um1) - tx2 * (u[i+1][j][k][1]*up1 - u[i-1][j][k][1]*um1 + (u[i+1][j][k][4]- square[i+1][j][k]- u[i-1][j][k][4]+ square[i-1][j][k])* c2); rhs[i][j][k][2] = rhs[i][j][k][2] + dx3tx1 * (u[i+1][j][k][2] - 2.0*u[i][j][k][2] + u[i-1][j][k][2]) + xxcon2 * (vs[i+1][j][k] - 2.0*vs[i][j][k] + vs[i-1][j][k]) - tx2 * (u[i+1][j][k][2]*up1 - u[i-1][j][k][2]*um1); rhs[i][j][k][3] = rhs[i][j][k][3] + dx4tx1 * (u[i+1][j][k][3] - 2.0*u[i][j][k][3] + u[i-1][j][k][3]) + xxcon2 * (ws[i+1][j][k] - 2.0*ws[i][j][k] + ws[i-1][j][k]) - tx2 * (u[i+1][j][k][3]*up1 - u[i-1][j][k][3]*um1); rhs[i][j][k][4] = rhs[i][j][k][4] + dx5tx1 * (u[i+1][j][k][4] - 2.0*u[i][j][k][4] + u[i-1][j][k][4]) + xxcon3 * (qs[i+1][j][k] - 2.0*qs[i][j][k] + qs[i-1][j][k]) + xxcon4 * (up1*up1 - 2.0*uijk*uijk + um1*um1) + xxcon5 * (u[i+1][j][k][4]*rho_i[i+1][j][k] - 2.0*u[i][j][k][4]*rho_i[i][j][k] + u[i-1][j][k][4]*rho_i[i-1][j][k]) - tx2 * ( (c1*u[i+1][j][k][4] - c2*square[i+1][j][k])*up1 - (c1*u[i-1][j][k][4] - c2*square[i-1][j][k])*um1 ); } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(uijk, up1, um1) <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(uijk, up1, um1)
100
#pragma omp parallel for private(uijk, up1, um1) for (i = 1; i < grid_points[0]-1; i++) { <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for private(uijk, up1, um1) for (k = 1; k < grid_points[2]-1; k++) { uijk = us[i][j][k]; up1 = us[i+1][j][k]; um1 = us[i-1][j][k]; rhs[i][j][k][0] = rhs[i][j][k][0] + dx1tx1 * (u[i+1][j][k][0] - 2.0*u[i][j][k][0] + u[i-1][j][k][0]) - tx2 * (u[i+1][j][k][1] - u[i-1][j][k][1]); rhs[i][j][k][1] = rhs[i][j][k][1] + dx2tx1 * (u[i+1][j][k][1] - 2.0*u[i][j][k][1] + u[i-1][j][k][1]) + xxcon2*con43 * (up1 - 2.0*uijk + um1) - tx2 * (u[i+1][j][k][1]*up1 - u[i-1][j][k][1]*um1 + (u[i+1][j][k][4]- square[i+1][j][k]- u[i-1][j][k][4]+ square[i-1][j][k])* c2); rhs[i][j][k][2] = rhs[i][j][k][2] + dx3tx1 * (u[i+1][j][k][2] - 2.0*u[i][j][k][2] + u[i-1][j][k][2]) + xxcon2 * (vs[i+1][j][k] - 2.0*vs[i][j][k] + vs[i-1][j][k]) - tx2 * (u[i+1][j][k][2]*up1 - u[i-1][j][k][2]*um1); rhs[i][j][k][3] = rhs[i][j][k][3] + dx4tx1 * (u[i+1][j][k][3] - 2.0*u[i][j][k][3] + u[i-1][j][k][3]) + xxcon2 * (ws[i+1][j][k] - 2.0*ws[i][j][k] + ws[i-1][j][k]) - tx2 * (u[i+1][j][k][3]*up1 - u[i-1][j][k][3]*um1); rhs[i][j][k][4] = rhs[i][j][k][4] + dx5tx1 * (u[i+1][j][k][4] - 2.0*u[i][j][k][4] + u[i-1][j][k][4]) + xxcon3 * (qs[i+1][j][k] - 2.0*qs[i][j][k] + qs[i-1][j][k]) + xxcon4 * (up1*up1 - 2.0*uijk*uijk + um1*um1) + xxcon5 * (u[i+1][j][k][4]*rho_i[i+1][j][k] - 2.0*u[i][j][k][4]*rho_i[i][j][k] + u[i-1][j][k][4]*rho_i[i-1][j][k]) - tx2 * ( (c1*u[i+1][j][k][4] - c2*square[i+1][j][k])*up1 - (c1*u[i-1][j][k][4] - c2*square[i-1][j][k])*um1 ); } }<LOOP-END> <OMP-START>#pragma omp parallel for private(uijk, up1, um1)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(uijk, up1, um1)
100
#pragma omp parallel for private(uijk, up1, um1) for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { uijk = us[i][j][k]; up1 = us[i+1][j][k]; um1 = us[i-1][j][k]; rhs[i][j][k][0] = rhs[i][j][k][0] + dx1tx1 * (u[i+1][j][k][0] - 2.0*u[i][j][k][0] + u[i-1][j][k][0]) - tx2 * (u[i+1][j][k][1] - u[i-1][j][k][1]); rhs[i][j][k][1] = rhs[i][j][k][1] + dx2tx1 * (u[i+1][j][k][1] - 2.0*u[i][j][k][1] + u[i-1][j][k][1]) + xxcon2*con43 * (up1 - 2.0*uijk + um1) - tx2 * (u[i+1][j][k][1]*up1 - u[i-1][j][k][1]*um1 + (u[i+1][j][k][4]- square[i+1][j][k]- u[i-1][j][k][4]+ square[i-1][j][k])* c2); rhs[i][j][k][2] = rhs[i][j][k][2] + dx3tx1 * (u[i+1][j][k][2] - 2.0*u[i][j][k][2] + u[i-1][j][k][2]) + xxcon2 * (vs[i+1][j][k] - 2.0*vs[i][j][k] + vs[i-1][j][k]) - tx2 * (u[i+1][j][k][2]*up1 - u[i-1][j][k][2]*um1); rhs[i][j][k][3] = rhs[i][j][k][3] + dx4tx1 * (u[i+1][j][k][3] - 2.0*u[i][j][k][3] + u[i-1][j][k][3]) + xxcon2 * (ws[i+1][j][k] - 2.0*ws[i][j][k] + ws[i-1][j][k]) - tx2 * (u[i+1][j][k][3]*up1 - u[i-1][j][k][3]*um1); rhs[i][j][k][4] = rhs[i][j][k][4] + dx5tx1 * (u[i+1][j][k][4] - 2.0*u[i][j][k][4] + u[i-1][j][k][4]) + xxcon3 * (qs[i+1][j][k] - 2.0*qs[i][j][k] + qs[i-1][j][k]) + xxcon4 * (up1*up1 - 2.0*uijk*uijk + um1*um1) + xxcon5 * (u[i+1][j][k][4]*rho_i[i+1][j][k] - 2.0*u[i][j][k][4]*rho_i[i][j][k] + u[i-1][j][k][4]*rho_i[i-1][j][k]) - tx2 * ( (c1*u[i+1][j][k][4] - c2*square[i+1][j][k])*up1 - (c1*u[i-1][j][k][4] - c2*square[i-1][j][k])*um1 ); }<LOOP-END> <OMP-START>#pragma omp parallel for private(uijk, up1, um1)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
on c-------------------------------------------------------------------*/ i = 1; <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m]- dssp * ( 5.0*u[i][j][k][m] - 4.0*u[i+1][j][k][m] + u[i+2][j][k][m]); } } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
--------------*/ i = 1; #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m]- dssp * ( 5.0*u[i][j][k][m] - 4.0*u[i+1][j][k][m] + u[i+2][j][k][m]); } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m]- dssp * ( 5.0*u[i][j][k][m] - 4.0*u[i+1][j][k][m] + u[i+2][j][k][m]); }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
( 5.0*u[i][j][k][m] - 4.0*u[i+1][j][k][m] + u[i+2][j][k][m]); } } } i = 2; <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * (-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]); } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
} } } i = 2; #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * (-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]); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
ints[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * (-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]); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
-1][j][k][m] + 6.0*u[i][j][k][m] - 4.0*u[i+1][j][k][m] + u[i+2][j][k][m]); } } } <LOOP-START>for (i = 3; i < grid_points[0]-3; i++) { #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[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] ); } } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
[m]); } } } #pragma omp parallel for for (i = 3; i < grid_points[0]-3; i++) { <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[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] ); } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
ints[0]-3; i++) { #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[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] ); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
oints[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[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] ); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
+1][j][k][m] + u[i+2][j][k][m] ); } } } } i = grid_points[0]-3; <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[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] ); } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
i = grid_points[0]-3; #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[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] ); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
ints[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * ( u[i-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] ); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
[m] + 6.0*u[i][j][k][m] - 4.0*u[i+1][j][k][m] ); } } } i = grid_points[0]-2; <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * ( u[i-2][j][k][m] - 4.*u[i-1][j][k][m] + 5.0*u[i][j][k][m] ); } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
i = grid_points[0]-2; #pragma omp parallel for for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * ( u[i-2][j][k][m] - 4.*u[i-1][j][k][m] + 5.0*u[i][j][k][m] ); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
ints[1]-1; j++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { <LOOP-START>for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m] - dssp * ( u[i-2][j][k][m] - 4.*u[i-1][j][k][m] + 5.0*u[i][j][k][m] ); }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(vijk, vp1, vm1)
100
pute eta-direction fluxes c-------------------------------------------------------------------*/ <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { #pragma omp parallel for private(vijk, vp1, vm1) for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for private(vijk, vp1, vm1) for (k = 1; k < grid_points[2]-1; k++) { vijk = vs[i][j][k]; vp1 = vs[i][j+1][k]; vm1 = vs[i][j-1][k]; rhs[i][j][k][0] = rhs[i][j][k][0] + dy1ty1 * (u[i][j+1][k][0] - 2.0*u[i][j][k][0] + u[i][j-1][k][0]) - ty2 * (u[i][j+1][k][2] - u[i][j-1][k][2]); rhs[i][j][k][1] = rhs[i][j][k][1] + dy2ty1 * (u[i][j+1][k][1] - 2.0*u[i][j][k][1] + u[i][j-1][k][1]) + yycon2 * (us[i][j+1][k] - 2.0*us[i][j][k] + us[i][j-1][k]) - ty2 * (u[i][j+1][k][1]*vp1 - u[i][j-1][k][1]*vm1); rhs[i][j][k][2] = rhs[i][j][k][2] + dy3ty1 * (u[i][j+1][k][2] - 2.0*u[i][j][k][2] + u[i][j-1][k][2]) + yycon2*con43 * (vp1 - 2.0*vijk + vm1) - ty2 * (u[i][j+1][k][2]*vp1 - u[i][j-1][k][2]*vm1 + (u[i][j+1][k][4] - square[i][j+1][k] - u[i][j-1][k][4] + square[i][j-1][k]) *c2); rhs[i][j][k][3] = rhs[i][j][k][3] + dy4ty1 * (u[i][j+1][k][3] - 2.0*u[i][j][k][3] + u[i][j-1][k][3]) + yycon2 * (ws[i][j+1][k] - 2.0*ws[i][j][k] + ws[i][j-1][k]) - ty2 * (u[i][j+1][k][3]*vp1 - u[i][j-1][k][3]*vm1); rhs[i][j][k][4] = rhs[i][j][k][4] + dy5ty1 * (u[i][j+1][k][4] - 2.0*u[i][j][k][4] + u[i][j-1][k][4]) + yycon3 * (qs[i][j+1][k] - 2.0*qs[i][j][k] + qs[i][j-1][k]) + yycon4 * (vp1*vp1 - 2.0*vijk*vijk + vm1*vm1) + yycon5 * (u[i][j+1][k][4]*rho_i[i][j+1][k] - 2.0*u[i][j][k][4]*rho_i[i][j][k] + u[i][j-1][k][4]*rho_i[i][j-1][k]) - ty2 * ((c1*u[i][j+1][k][4] - c2*square[i][j+1][k]) * vp1 - (c1*u[i][j-1][k][4] - c2*square[i][j-1][k]) * vm1); } } }<LOOP-END> <OMP-START>#pragma omp parallel for private(vijk, vp1, vm1)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(vijk, vp1, vm1)
100
/ #pragma omp parallel for private(vijk, vp1, vm1) for (i = 1; i < grid_points[0]-1; i++) { <LOOP-START>for (j = 1; j < grid_points[1]-1; j++) { #pragma omp parallel for private(vijk, vp1, vm1) for (k = 1; k < grid_points[2]-1; k++) { vijk = vs[i][j][k]; vp1 = vs[i][j+1][k]; vm1 = vs[i][j-1][k]; rhs[i][j][k][0] = rhs[i][j][k][0] + dy1ty1 * (u[i][j+1][k][0] - 2.0*u[i][j][k][0] + u[i][j-1][k][0]) - ty2 * (u[i][j+1][k][2] - u[i][j-1][k][2]); rhs[i][j][k][1] = rhs[i][j][k][1] + dy2ty1 * (u[i][j+1][k][1] - 2.0*u[i][j][k][1] + u[i][j-1][k][1]) + yycon2 * (us[i][j+1][k] - 2.0*us[i][j][k] + us[i][j-1][k]) - ty2 * (u[i][j+1][k][1]*vp1 - u[i][j-1][k][1]*vm1); rhs[i][j][k][2] = rhs[i][j][k][2] + dy3ty1 * (u[i][j+1][k][2] - 2.0*u[i][j][k][2] + u[i][j-1][k][2]) + yycon2*con43 * (vp1 - 2.0*vijk + vm1) - ty2 * (u[i][j+1][k][2]*vp1 - u[i][j-1][k][2]*vm1 + (u[i][j+1][k][4] - square[i][j+1][k] - u[i][j-1][k][4] + square[i][j-1][k]) *c2); rhs[i][j][k][3] = rhs[i][j][k][3] + dy4ty1 * (u[i][j+1][k][3] - 2.0*u[i][j][k][3] + u[i][j-1][k][3]) + yycon2 * (ws[i][j+1][k] - 2.0*ws[i][j][k] + ws[i][j-1][k]) - ty2 * (u[i][j+1][k][3]*vp1 - u[i][j-1][k][3]*vm1); rhs[i][j][k][4] = rhs[i][j][k][4] + dy5ty1 * (u[i][j+1][k][4] - 2.0*u[i][j][k][4] + u[i][j-1][k][4]) + yycon3 * (qs[i][j+1][k] - 2.0*qs[i][j][k] + qs[i][j-1][k]) + yycon4 * (vp1*vp1 - 2.0*vijk*vijk + vm1*vm1) + yycon5 * (u[i][j+1][k][4]*rho_i[i][j+1][k] - 2.0*u[i][j][k][4]*rho_i[i][j][k] + u[i][j-1][k][4]*rho_i[i][j-1][k]) - ty2 * ((c1*u[i][j+1][k][4] - c2*square[i][j+1][k]) * vp1 - (c1*u[i][j-1][k][4] - c2*square[i][j-1][k]) * vm1); } }<LOOP-END> <OMP-START>#pragma omp parallel for private(vijk, vp1, vm1)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for private(vijk, vp1, vm1)
100
#pragma omp parallel for private(vijk, vp1, vm1) for (j = 1; j < grid_points[1]-1; j++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { vijk = vs[i][j][k]; vp1 = vs[i][j+1][k]; vm1 = vs[i][j-1][k]; rhs[i][j][k][0] = rhs[i][j][k][0] + dy1ty1 * (u[i][j+1][k][0] - 2.0*u[i][j][k][0] + u[i][j-1][k][0]) - ty2 * (u[i][j+1][k][2] - u[i][j-1][k][2]); rhs[i][j][k][1] = rhs[i][j][k][1] + dy2ty1 * (u[i][j+1][k][1] - 2.0*u[i][j][k][1] + u[i][j-1][k][1]) + yycon2 * (us[i][j+1][k] - 2.0*us[i][j][k] + us[i][j-1][k]) - ty2 * (u[i][j+1][k][1]*vp1 - u[i][j-1][k][1]*vm1); rhs[i][j][k][2] = rhs[i][j][k][2] + dy3ty1 * (u[i][j+1][k][2] - 2.0*u[i][j][k][2] + u[i][j-1][k][2]) + yycon2*con43 * (vp1 - 2.0*vijk + vm1) - ty2 * (u[i][j+1][k][2]*vp1 - u[i][j-1][k][2]*vm1 + (u[i][j+1][k][4] - square[i][j+1][k] - u[i][j-1][k][4] + square[i][j-1][k]) *c2); rhs[i][j][k][3] = rhs[i][j][k][3] + dy4ty1 * (u[i][j+1][k][3] - 2.0*u[i][j][k][3] + u[i][j-1][k][3]) + yycon2 * (ws[i][j+1][k] - 2.0*ws[i][j][k] + ws[i][j-1][k]) - ty2 * (u[i][j+1][k][3]*vp1 - u[i][j-1][k][3]*vm1); rhs[i][j][k][4] = rhs[i][j][k][4] + dy5ty1 * (u[i][j+1][k][4] - 2.0*u[i][j][k][4] + u[i][j-1][k][4]) + yycon3 * (qs[i][j+1][k] - 2.0*qs[i][j][k] + qs[i][j-1][k]) + yycon4 * (vp1*vp1 - 2.0*vijk*vijk + vm1*vm1) + yycon5 * (u[i][j+1][k][4]*rho_i[i][j+1][k] - 2.0*u[i][j][k][4]*rho_i[i][j][k] + u[i][j-1][k][4]*rho_i[i][j-1][k]) - ty2 * ((c1*u[i][j+1][k][4] - c2*square[i][j+1][k]) * vp1 - (c1*u[i][j-1][k][4] - c2*square[i][j-1][k]) * vm1); }<LOOP-END> <OMP-START>#pragma omp parallel for private(vijk, vp1, vm1)<OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
sipation c-------------------------------------------------------------------*/ j = 1; <LOOP-START>for (i = 1; i < grid_points[0]-1; i++) { #pragma omp parallel for for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m]- dssp * ( 5.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] + u[i][j+2][k][m]); } } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>
LLNL/AutoParBench/benchmarks/reference_cpu_threading/NPB3.0-omp-c/BT/bt.c
#pragma omp parallel for
100
-----------*/ j = 1; #pragma omp parallel for for (i = 1; i < grid_points[0]-1; i++) { <LOOP-START>for (k = 1; k < grid_points[2]-1; k++) { #pragma omp parallel for for (m = 0; m < 5; m++) { rhs[i][j][k][m] = rhs[i][j][k][m]- dssp * ( 5.0*u[i][j][k][m] - 4.0*u[i][j+1][k][m] + u[i][j+2][k][m]); } }<LOOP-END> <OMP-START>#pragma omp parallel for <OMP-END>