LLMforParallelCode1/OMP-FT-Source · Datasets at Hugging Face

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB113-default-orig-no.c

#pragma omp parallel for private(j )

100

0]; int main() { int i,j; #pragma omp parallel for private(i ,j ) for (i=0;i<100;i++) { <LOOP-START>for (j=0;j<100;j++) { a[i][j] = i; b[i][j] = i; }<LOOP-END> <OMP-START>#pragma omp parallel for private(j ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for private(i,j,xx,yy)

100

xx, yy; dx = 2.0 / (n - 1); dy = 2.0 / (m - 1); /* Initialize initial condition and RHS */ //<LOOP-START>#pragma omp parallel for private(xx ,yy) for (i = 0; i < n; i++) #pragma omp parallel for private(xx ,yy) for (j = 0; j < m; j++) { xx = (int) (-1.0 + dx * (i - 1)); /* -1 < x < 1 */ yy = (int) (-1.0 + dy * (j - 1)); /* -1 < y < 1 */ u[i][j] = 0.0; f[i][j] = -1.0 * alpha * (1.0 - xx * xx) * (1.0 - yy * yy) - 2.0 * (1.0 - xx * xx) - 2.0 * (1.0 - yy * yy); }<LOOP-END> <OMP-START>#pragma omp parallel for private(i,j,xx,yy)<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for private(xx ,yy)

100

m - 1); /* Initialize initial condition and RHS */ //#pragma omp parallel for private(i,j,xx,yy) <LOOP-START>for (i = 0; i < n; i++) #pragma omp parallel for private(xx ,yy) for (j = 0; j < m; j++) { xx = (int) (-1.0 + dx * (i - 1)); /* -1 < x < 1 */ yy = (int) (-1.0 + dy * (j - 1)); /* -1 < y < 1 */ u[i][j] = 0.0; f[i][j] = -1.0 * alpha * (1.0 - xx * xx) * (1.0 - yy * yy) - 2.0 * (1.0 - xx * xx) - 2.0 * (1.0 - yy * yy); }<LOOP-END> <OMP-START>#pragma omp parallel for private(xx ,yy) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for private(xx ,yy)

100

el for private(i,j,xx,yy) #pragma omp parallel for private(xx ,yy) for (i = 0; i < n; i++) <LOOP-START>for (j = 0; j < m; j++) { xx = (int) (-1.0 + dx * (i - 1)); /* -1 < x < 1 */ yy = (int) (-1.0 + dy * (j - 1)); /* -1 < y < 1 */ u[i][j] = 0.0; f[i][j] = -1.0 * alpha * (1.0 - xx * xx) * (1.0 - yy * yy) - 2.0 * (1.0 - xx * xx) - 2.0 * (1.0 - yy * yy); }<LOOP-END> <OMP-START>#pragma omp parallel for private(xx ,yy) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for

100

l; k = 1; while (k <= mits) { error = 0.0; /* Copy new solution into old */ <LOOP-START>for (i = 0; i < n; i++) #pragma omp parallel for for (j = 0; j < m; j++) uold[i][j] = u[i][j]; #pragma omp parallel for private(resid) reduction(+:error) for (i = 1; i < (n - 1); i++) #pragma omp parallel for private(resid) reduction(+:error) for (j = 1; j < (m - 1); j++) { resid = (ax * (uold[i - 1][j] + uold[i + 1][j]) + ay * (uold[i][j - 1] + uold[i][j + 1]) + b * uold[i][j] - f[i][j]) / b; u[i][j] = uold[i][j] - omega * resid; error = error + resid * resid; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for

100

* Copy new solution into old */ #pragma omp parallel for for (i = 0; i < n; i++) <LOOP-START>for (j = 0; j < m; j++) uold[i][j] = u[i][j]; #pragma omp parallel for private(resid) reduction(+:error) for (i = 1; i < (n - 1); i++) #pragma omp parallel for private(resid) reduction(+:error) for (j = 1; j < (m - 1); j++) { resid = (ax * (uold[i - 1][j] + uold[i + 1][j]) + ay * (uold[i][j - 1] + uold[i][j + 1]) + b * uold[i][j] - f[i][j]) / b; u[i][j] = uold[i][j] - omega * resid; error = error + resid * resid; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for private(resid) reduction(+:error)

100

ragma omp parallel for for (j = 0; j < m; j++) uold[i][j] = u[i][j]; <LOOP-START>for (i = 1; i < (n - 1); i++) #pragma omp parallel for private(resid) reduction(+:error) for (j = 1; j < (m - 1); j++) { resid = (ax * (uold[i - 1][j] + uold[i + 1][j]) + ay * (uold[i][j - 1] + uold[i][j + 1]) + b * uold[i][j] - f[i][j]) / b; u[i][j] = uold[i][j] - omega * resid; error = error + resid * resid; }<LOOP-END> <OMP-START>#pragma omp parallel for private(resid) reduction(+:error)<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB058-jacobikernel-orig-no.c

#pragma omp parallel for private(resid) reduction(+:error)

100

#pragma omp parallel for private(resid) reduction(+:error) for (i = 1; i < (n - 1); i++) <LOOP-START>for (j = 1; j < (m - 1); j++) { resid = (ax * (uold[i - 1][j] + uold[i + 1][j]) + ay * (uold[i][j - 1] + uold[i][j + 1]) + b * uold[i][j] - f[i][j]) / b; u[i][j] = uold[i][j] - omega * resid; error = error + resid * resid; }<LOOP-END> <OMP-START>#pragma omp parallel for private(resid) reduction(+:error)<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB070-simd1-orig-no.c

#pragma omp parallel for private(i )

100

y computation with a vetorization directive */ int a[100], b[100], c[100]; int main() { int i; <LOOP-START>for (i=0;i<100;i++) { a[i]= i * 40; b[i] = i - 1; c[i] = i; }<LOOP-END> <OMP-START>#pragma omp parallel for private(i ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB070-simd1-orig-no.c

#pragma omp parallel for private(i )

100

el for private(i ) for (i=0;i<100;i++) { a[i]= i * 40; b[i] = i - 1; c[i] = i; } <LOOP-START>for (i=0;i<100;i++) a[i]=b[i]*c[i]; for (i=0;i<100;i++) { printf("%d %d %d\n", a[i], b[i], c[i]); }<LOOP-END> <OMP-START>#pragma omp parallel for private(i ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB090-static-local-orig-yes.c

#pragma omp parallel for

100

clude<stdio.h> int main(int argc, char* argv[]) { int i; int len=100; int a[len], b[len]; <LOOP-START>for (i=0;i<len;i++) { a[i]=i; b[i]=i; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB062-matrixvector2-orig-no.c

#pragma omp parallel for private(i ,j )

100

evel parallelization. */ #define N 1000 double a[N][N],v[N],v_out[N]; int init() { int i,j,k; <LOOP-START>for (i = 0; i < N; i++) { #pragma omp parallel for private(j ) for (j = 0; j < N; j++) { a[i][j] = i * j + 0.01; } v_out[i] = i * j + 0.01; v[i] = i * j + 0.01; }<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB062-matrixvector2-orig-no.c

#pragma omp parallel for private(j )

100

nt init() { int i,j,k; #pragma omp parallel for private(i ,j ) for (i = 0; i < N; i++) { <LOOP-START>for (j = 0; j < N; j++) { a[i][j] = i * j + 0.01; }<LOOP-END> <OMP-START>#pragma omp parallel for private(j ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB062-matrixvector2-orig-no.c

#pragma omp parallel for private(i ,j )

100

[i] = i * j + 0.01; v[i] = i * j + 0.01; } return 0; } void mv() { int i,j; <LOOP-START>for (i = 0; i < N; i++) { double sum = 0.0; #pragma omp parallel for reduction(+:sum) for (j = 0; j < N; j++) { sum += a[i][j]*v[j]; } v_out[i] = sum; }<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB062-matrixvector2-orig-no.c

#pragma omp parallel for reduction(+:sum)

100

a omp parallel for private(i ,j ) for (i = 0; i < N; i++) { double sum = 0.0; <LOOP-START>for (j = 0; j < N; j++) { sum += a[i][j]*v[j]; }<LOOP-END> <OMP-START>#pragma omp parallel for reduction(+:sum)<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB111-linearmissing-orig-yes.c

#pragma omp parallel for

100

j@67:7 vs. j@68:5 */ int main() { int len=100; double a[len], b[len], c[len]; int i,j=0; <LOOP-START>for (i=0;i<len;i++) { a[i]=((double)i)/2.0; b[i]=((double)i)/3.0; c[i]=((double)i)/7.0; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB111-linearmissing-orig-yes.c

#pragma omp parallel for linear(j)

100

en;i++) { a[i]=((double)i)/2.0; b[i]=((double)i)/3.0; c[i]=((double)i)/7.0; } <LOOP-START>for (i=0;i<len;i++) { c[j]+=a[i]*b[i]; j++; }<LOOP-END> <OMP-START>#pragma omp parallel for linear(j)<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB028-privatemissing-orig-yes.c

#pragma omp parallel for

100

de <stdio.h> int main(int argc, char* argv[]) { int i; int tmp; int len=100; int a[100]; <LOOP-START>for (i=0;i<len;i++) a[i]=i; #pragma omp parallel for private(tmp) for (i=0;i<len;i++) { tmp =a[i]+i; a[i] = tmp; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB028-privatemissing-orig-yes.c

#pragma omp parallel for private(tmp)

100

tmp; int len=100; int a[100]; #pragma omp parallel for for (i=0;i<len;i++) a[i]=i; <LOOP-START>for (i=0;i<len;i++) { tmp =a[i]+i; a[i] = tmp; }<LOOP-END> <OMP-START>#pragma omp parallel for private(tmp)<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB048-firstprivate-orig-no.c

#pragma omp parallel for

100

SUCH DAMAGE. */ /* Example use of firstprivate() */ void foo(int * a, int n, int g) { int i; <LOOP-START>for (i=0;i<n;i++) { a[i] = a[i]+g; }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB063-outeronly1-orig-no.c

#pragma omp parallel for private(i ,j )

100

loop can be parallelized. */ int n=100, m=100; double b[100][100]; int init() { int i,j,k; <LOOP-START>for (i = 0; i < n; i++) { #pragma omp parallel for private(j ) for (j = 0; j < m; j++) { b[i][j] = i * j; } }<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB063-outeronly1-orig-no.c

#pragma omp parallel for private(j )

100

nt init() { int i,j,k; #pragma omp parallel for private(i ,j ) for (i = 0; i < n; i++) { <LOOP-START>for (j = 0; j < m; j++) { b[i][j] = i * j; }<LOOP-END> <OMP-START>#pragma omp parallel for private(j ) <OMP-END>

LLNL/AutoParBench/benchmarks/reference_cpu_threading/dataracebench/DRB063-outeronly1-orig-no.c

#pragma omp parallel for private(i ,j )

100

for (j = 0; j < m; j++) { b[i][j] = i * j; } } return 0; } void foo() { int i,j; <LOOP-START>for (i=0;i<n;i++) for (j=0;j<m-1;j++) // Be careful about bounds of j b[i][j]=b[i][j+1]; } int print() { int i,j,k; for (i = 0; i < n; i++) { for (j = 0; j < m; j++) { printf("%lf\n", b[i][j]); } } return 0; }<LOOP-END> <OMP-START>#pragma omp parallel for private(i ,j ) <OMP-END>