filename stringlengths 19 182 | omp_pragma_line stringlengths 24 416 | context_chars int64 100 100 | text stringlengths 152 177k |
|---|---|---|---|
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr46032-2.c | #pragma omp parallel for | 100 |
int
foo (void)
{
int a[N], b[N], c[N];
int *ap = &a[0];
int *bp = &b[0];
int *cp = &c[0];
<LOOP-START>for (unsigned int idx = 0; idx < N; idx++)
{
ap[idx] = 1;
bp[idx] = 2;
cp[idx] = ap[idx];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr27388-1.c | #pragma omp parallel for firstprivate (n) | 100 | e-omplower" } */
int n, o;
void
foo (void)
{
#pragma omp parallel firstprivate (n)
{
int i;
<LOOP-START>for (i = 0; i < 10; i++)
++n;
#pragma omp atomic
o += n;
}
}
/* { dg-final { scan-tree-dump-times "shared\\\(i\\\)" 0 "omplower" } }<LOOP-END> <OMP-START>#pragma omp parallel for firstprivate (n)... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/for-24.c | #pragma omp parallel for schedule (nonmonotonic : dynamic, 4) | 100 | g-options "-O2 -fopenmp -fdump-tree-ssa" } */
extern void bar(int);
void foo (void)
{
int i;
<LOOP-START>for (i = 0; i < 37; ++i)
bar(i);
}
/* { dg-final { scan-tree-dump-times "GOMP_parallel_loop_nonmonotonic_dynamic" 1 "ssa" } }<LOOP-END> <OMP-START>#pragma omp parallel for schedule (nonmonotonic : dynami... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr38676.c | #pragma omp parallel for shared(foo) | 100 | 38676 */
/* { dg-do compile } */
/* { dg-options "-fopenmp" } */
int
main ()
{
int bar, foo = 1;
<LOOP-START>for (bar = 0; bar < 3; bar++)
{
switch (foo)
{
case 1:
break;
}
}<LOOP-END> <OMP-START>#pragma omp parallel for shared(foo)<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/sink-fold-2.c | #pragma omp parallel for ordered(2) | 100 | /* { dg-do compile } */
int i,j, N;
extern void bar();
void
funk ()
{
<LOOP-START>for (i=0; i < N; i += 3)
for (j=0; j < N; ++j)
{
#pragma omp ordered depend(sink:i-8,j-1) /* { dg-warning "refers to iteration never in the iteration space" } */
#pragma omp ordered depend(sink:i+3,j-1) /* { dg-warning "waiting... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr68128-1.c | #pragma omp parallel for private (i, j, k, l, a, b, c, s, e) | 100 | , float v, float w, float x, float y, float z, float t)
{
int i, j, k, l;
float a, *b, c, s, e;
<LOOP-START>for (j = 0; j < 1024; j++)
{
k = j * 64;
l = j * 64 + 63;
a = v + j * w;
b = u + j * 64;
for (i = k; i <= l; i++, b++, a += w)
{
c = a * a + y;
s = (1.f - c * x) * (1.... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr27388-2.c | #pragma omp parallel for shared (i) | 100 | dg-options "-fopenmp -fdump-tree-omplower" } */
extern void baz (int);
void
foo (void)
{
int i;
<LOOP-START>for (i = 0; i < 2; i++)
baz (i);
}
void
bar (void)
{
int j = 0;
#pragma omp parallel shared (j)
{
j++;
#pragma omp for
for (j = 0; j < 2; j++)
baz (j);
}
}<LOOP-END> <OMP-START>#pragm... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/for-13.c | #pragma omp parallel for default(none) | 100 | }
// { dg-options "-fopenmp -fdump-tree-ompexp" }
extern void bar(int);
void foo(void)
{
int i;
<LOOP-START>for (i = 0; i < 10; i++)
bar(i);
}
// { dg-final { scan-tree-dump-times "omp_data_o" 0 "ompexp" } }<LOOP-END> <OMP-START>#pragma omp parallel for default(none)<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr49640.c | #pragma omp parallel for private(ii,jj,kk) | 100 | Q, int R, int i, int j, int k,
unsigned char x[P][Q][R], int y[N][M][K])
{
int ii, jj, kk;
<LOOP-START>for (ii = 0; ii < P; ++ii)
for (jj = 0; jj < Q; ++jj)
for (kk = 0; kk < R; ++kk)
y[i + ii][j + jj][k + kk] = x[ii][jj][kk];
}
void
bar (int N, int M, int K, int P, int Q, int R, int i, int j, int ... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/sharing-1.c | #pragma omp parallel for \ | 100 | , j, s, l;
p = malloc (sizeof (int));
if (p == NULL)
return 0;
*p = 7;
s = 6;
l = 0;
<LOOP-START>default (none) private (p) shared (s)
for (i = 0; i < 64; i++)
{
int k = foo (0); /* Predetermined - private (automatic var declared */
k++; /* in scope of construct). */
thrglobalv... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/sink-fold-1.c | #pragma omp parallel for ordered(3) | 100 | " } */
/* Test depend(sink) clause folding. */
int i,j,k, N;
extern void bar();
void
funk ()
{
<LOOP-START>for (i=0; i < N; i++)
for (j=0; j < N; ++j)
for (k=0; k < N; ++k)
{
/* We remove the (sink:i,j-1,k) by virtue of it the i+0. The remaining
clauses get folded with a GCD of -2 for `i' and a m... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr27415.c | #pragma omp parallel for firstprivate (i) | 100 | ould not be firstprivate" } */
for (i = 0; i < 10; i++)
;
}
void
test2 (void)
{
int i = 0;
<LOOP-START>for (i = 0; i < 10; i++)
;
}
void
test3 (void)
{
int i = 0;
#pragma omp parallel
#pragma omp for reduction (+:i) /* { dg-error "should not be reduction" } */
for (i = 0; i < 10; i++)
;
}<LOOP-E... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr27415.c | #pragma omp parallel for reduction (*:i) | 100 | "should not be reduction" } */
for (i = 0; i < 10; i++)
;
}
void
test4 (void)
{
int i = 0;
<LOOP-START>for (i = 0; i < 10; i++)
;
}
void
test5 (void)
{
int i = 0;
#pragma omp parallel firstprivate (i)
#pragma omp for
for (i = 0; i < 10; i++)
;
}<LOOP-END> <OMP-START>#pragma omp parallel for reduct... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/openmp-simd-2.c | #pragma omp parallel for simd num_threads(4) safelen(64) | 100 | != s.s || u != s.s)
abort ();
return s.s;
}
void bar(int n, float *a, float *b)
{
int i;
<LOOP-START>for (i = 0; i < n ; i++)
a[i] = b[i];
}
/* { dg-final { scan-tree-dump-times "pragma omp simd reduction\\(u\\) reduction\\(t\\) reduction\\(\\+:s\\) aligned\\(a:32\\)" 1 "original" } }<LOOP-END> <OMP-STA... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/_Atomic-1.c | #pragma omp parallel for schedule (dynamic, b) | 100 | (i = 0; i < 16; i++)
;
#pragma omp taskloop grainsize (c)
for (i = 0; i < 16; i++)
;
<LOOP-START>for (i = 0; i < 16; i++)
;
j = 0;
#pragma omp simd linear(j:b)
for (i = 0; i < 16; i++)
j += b;
j = 4;
#pragma omp atomic read
b = j;
#pragma omp atomic write
j = c;
#pragma omp atom... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr30421.c | #pragma omp parallel for firstprivate(a) lastprivate(a) | 100 | */
/* { dg-do compile } */
/* { dg-options "-O2 -fopenmp -Wall" } */
int
foo ()
{
int a = 0, i;
<LOOP-START>for (i = 0; i < 10; i++)
a += i;
return a;
}
int
bar ()
{
int a = 0, i;
#pragma omp parallel for firstprivate(a) lastprivate(a) schedule(static, 2)
for (i = 0; i < 10; i++)
a += i;
return ... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr30421.c | #pragma omp parallel for firstprivate(a) lastprivate(a) schedule(static, 2) | 100 | lastprivate(a)
for (i = 0; i < 10; i++)
a += i;
return a;
}
int
bar ()
{
int a = 0, i;
<LOOP-START>for (i = 0; i < 10; i++)
a += i;
return a;
}
int
baz ()
{
int a = 0, i;
#pragma omp parallel for firstprivate(a) lastprivate(a) schedule(dynamic)
for (i = 0; i < 10; i++)
a += i;
return a;... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/static-chunk-size-one.c | #pragma omp parallel for num_threads (3) reduction (+:a) schedule(static, 1) | 100 | { dg-options "-fopenmp -O2 -fdump-tree-optimized -fno-tree-pre" } */
int
bar ()
{
int a = 0, i;
<LOOP-START>for (i = 0; i < 10; i++)
a += i;
return a;
}
/* Two phis for reduction, one in loop header, one in loop exit. One phi for iv
in loop header. */
/* { dg-final { scan-tree-dump-times "PHI" 3 "optim... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr29965-6.c | #pragma omp parallel for schedule (static, 16) | 100 | p for schedule (static, 16)
for (i = 0; i < 2834; i++)
baz ();
}
void
foo2 (void)
{
int i;
<LOOP-START>for (i = 0; i < 2834; i++)
for (;;)
;
}
void
bar2 (void)
{
int i;
#pragma omp parallel for schedule (static, 16)
for (i = 0; i < 2834; i++)
baz ();
}<LOOP-END> <OMP-START>#pragma omp parall... |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr68640.c | #pragma omp parallel for | 100 | enmp -fdump-tree-ealias-all" } */
#define N 1024
int
foo (int *__restrict__ ap)
{
int *bp = ap;
<LOOP-START>for (unsigned int idx = 0; idx < N; idx++)
ap[idx] = bp[idx];
}
/* { dg-final { scan-tree-dump-times "clique 1 base 1" 2 "ealias" } }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr46032-3.c | #pragma omp parallel for | 100 | e N 2
int
foo (void)
{
int a[N], c[N];
int *ap = &a[0];
int *bp = &a[0];
int *cp = &c[0];
<LOOP-START>for (unsigned int idx = 0; idx < N; idx++)
{
ap[idx] = 1;
bp[idx] = 2;
cp[idx] = ap[idx];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/pr53992.c | #pragma omp parallel for | 100 | long data[10000];
long i, min=10000;
for (i=0; i<10000; i++) data[i] = -i;
<LOOP-START>for (i=0; i<10000; i++) {
__transaction_atomic
{
if (data[i] < min)
min = data[i];
}
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/block-8.c | #pragma omp parallel for | 100 | // { dg-do compile }
// PR 24451
int foo()
{
int i;
<LOOP-START>for (i = 0; i < 10; ++i)
return 0; // { dg-error "invalid branch to/from OpenMP structured block" }<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/appendix-a/a.31.1.c | #pragma omp parallel for private(i) shared(x, y, n) \ | 100 | -do compile } */
void
a31_1 (float *x, int *y, int n)
{
int i, b;
float a;
a = 0.0;
b = 0;
<LOOP-START>reduction(+:a) reduction(^:b)
for (i = 0; i < n; i++)
{
a += x[i];
b ^= y[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i) shared(x, y, n) \<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/appendix-a/a.27.1.c | #pragma omp parallel for private(a) | 100 | /* { dg-do compile } */
void
a27 ()
{
int i, a;
#pragma omp parallel private(a)
{
<LOOP-START>for (i = 0; i < 10; i++)
{
/* do work here */
}<LOOP-END> <OMP-START>#pragma omp parallel for private(a)<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/gomp/appendix-a/a.26.2.c | #pragma omp parallel for private(a) | 100 | int k)
{
a = k; /* The global "a", not the private "a" in f */
}
void
f (int n)
{
int a = 0;
<LOOP-START>for (int i = 1; i < n; i++)
{
a = i;
g (a * 2); /* Private copy of "a" */
}<LOOP-END> <OMP-START>#pragma omp parallel for private(a)<OMP-END> |
cea-hpc/pcvs-benchmarks/compilers/gcc/gcc.dg/vect/pr46032.c | #pragma omp parallel for | 100 | sults[nEvents];
unsigned pData[nEvents];
unsigned coeff = 2;
init (&results[0], &pData[0]);
<LOOP-START>for (int idx = 0; idx < (int)nEvents; idx++)
results[idx] = coeff * pData[idx];
check (&results[0]);
return 0;
}
/* { dg-final { scan-tree-dump-times "note: vectorized 1 loop" 1 "vect" { xfail { ve... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_multi_interp.c | #pragma omp parallel for private(i) reduction(+:n_coarse,n_SF ) schedule(static) | 100 | ne_to_coarse = hypre_CTAlloc(int, n_fine);
n_coarse = 0;
n_SF = 0;
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i=0; i < n_fine; i++)
if (CF_marker[i] == 1) n_coarse++;
else if (CF_marker[i] == -3) n_SF++;
pass_array_size = n_fine-n_coarse-n_SF;
if (pass_array_size) pass_array = hypre_CTAlloc(in... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_multi_interp.c | #pragma omp parallel for private(i) reduction(+:n_coarse_offd,n_SF_offd) schedule(static) | 100 | stroy(comm_handle);
}
}
n_coarse_offd = 0;
n_SF_offd = 0;
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i=0; i < num_cols_offd; i++)
if (CF_marker_offd[i] == 1) n_coarse_offd++;
else if (CF_marker_offd[i] == -3) n_SF_offd++;
if (num_cols_offd)
{
assigned_offd = hypre_CTAlloc(int, n... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_multi_interp.c | #pragma omp parallel for private(j,j1) reduction(+:Pext_send_size) schedule(static) | 100 | ap_start[pass][0] = 0;
for (i=0; i < num_sends; i++)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (j=send_map_start[i]; j < send_map_start[i+1]; j++)
{
j1 = send_map_elmt[j];
if (assigned[j1] == pass-1)
{
P_ncols[j] = P_diag_i[j1+1] + P_offd_i[j1+1... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_multi_interp.c | #pragma omp parallel for private(i,i1) schedule(static) | 100 | P_offd_i[i+1] += P_offd_i[i];
}
/* determine P for coarse points */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i=0; i < n_coarse; i++)
{
i1 = C_array[i];
P_diag_j[P_diag_i[i1]] = fine_to_coarse[i1];
P_diag_data[P_diag_i[i1]] = 1.0;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i,... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j) schedule(static) | 100 | beta = gamma / gamma_old;
/* p = s + beta p */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (j=0; j < local_size; j++)
{
p_data[j] = s_data[j] + beta*p_data[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) schedule(static)<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(i,diag,scale) schedule(static) | 100 | /*d_0* = 1/theta * inv(M)r_0 - M is Jacobi*/
/* x_1 = x_0 + d_0 */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
{
diag = A_diag_data[A_diag_i[i]];
scale = temp1/diag;
dk[i] = scale*v_data[i];
u_data[i] += dk[i];
}<LOOP-END> <OMP-START>#pragma om... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(i,diag,scale) schedule(static) | 100 | 2.0*sigma - p_k);
temp1 = p_kp1*p_k;
temp2 = 2.0*p_kp1/delta;
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
{
diag = A_diag_data[A_diag_i[i]];
scale = temp2/diag;
dk[i] = temp1*dk[i] + scale*v_data[i];
u_data[i] += dk[i];
}<LOO... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j) schedule(static) | 100 | hypre_ParCSRMatrixMatvec(1.0, A, u, 0.0, v);
mult = coefs[i];
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( j = 0; j < num_rows; j++ )
{
u_data[j] = mult * r_data[j] + v_data[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) schedule(static) <OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(i) schedule(static) | 100 | u_data[j] = mult * r_data[j] + v_data[j];
}
}
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( i = 0; i < num_rows; i++ )
{
u_data[i] = orig_u[i] + u_data[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i) schedule(static) <OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j,diag) schedule(static) | 100 | s_data and get scaled residual: r = D^(-1/2)f -
* D^(-1/2)A*u */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (j = 0; j < num_rows; j++)
{
diag = A_diag_data[A_diag_i[j]];
ds_data[j] = 1/sqrt(diag);
r_data[j] = ds_data[j] * f_data[j];
}<LOOP-END> <OMP-START>#pragma omp para... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j) schedule(static) | 100 | ta[j];
}
hypre_ParCSRMatrixMatvec(-1.0, A, u, 0.0, tmp_vec);
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( j = 0; j < num_rows; j++ )
{
r_data[j] += ds_data[j] * tmp_data[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) schedule(static) <OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j) schedule(static) | 100 | then start
the iteration by multiplying r by the cheby coef.*/
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( j = 0; j < num_rows; j++ )
{
orig_u[j] = u_data[j]; /* orig, unscaled u */
u_data[j] = r_data[j] * coefs[cheby_order];
}<LOOP-END> <OMP-START>#pragma omp parallel for pr... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j) schedule(static) | 100 | y_order - 1; i >= 0; i-- )
{
/* v = D^(-1/2)AD^(-1/2)u */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( j = 0; j < num_rows; j++ )
{
tmp_data[j] = ds_data[j] * u_data[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) schedule(static) <OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j,tmp_d) schedule(static) | 100 | ec, 0.0, v);
/* u_new = coef*r + v*/
mult = coefs[i];
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( j = 0; j < num_rows; j++ )
{
tmp_d = ds_data[j]* v_data[j];
u_data[j] = mult * r_data[j] + tmp_d;
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j,tmp_... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(j) schedule(static) | 100 | */
/* now we have to scale u_data before adding it to u_orig*/
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for ( j = 0; j < num_rows; j++ )
{
u_data[j] = orig_u[j] + ds_data[j]*u_data[j];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(j) schedule(static) <OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(i,diag,scale) schedule(static) | 100 | 0/upper_bound;
hypre_ParVectorAxpy(scale, Ztemp, v);
/* END NEW */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
{
diag = 1;
scale = temp1/diag;
dk[i] = scale*v_data[i];
u_data[i] += dk[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for private(i,diag,... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/parcsr_ls/par_relax_more.c | #pragma omp parallel for private(i,diag,scale) schedule(static) | 100 | _bound;
hypre_ParVectorAxpy(scale, Ztemp, v);
/* END NEW */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
{
diag = 1;
scale = temp2/diag;
dk[i] = temp1*dk[i] + scale*v_data[i];
u_data[i] += dk[i];
}<LOOP-END> <OMP-START>#pragma omp par... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/vector.c | #pragma omp parallel for private(i) schedule(static) | 100 |
int ierr = 0;
size *=hypre_VectorNumVectors(v);
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < size; i++)
vector_data[i] = value;
return ierr;
}
/*--------------------------------------------------------------------------
* hypre_SeqVectorSetRandomValues
*
* returns ve... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/vector.c | #pragma omp parallel for private(i) schedule(static) | 100 | ;
int ierr = 0;
size *=hypre_VectorNumVectors(x);
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < size; i++)
y_data[i] = x_data[i];
return ierr;
}
/*--------------------------------------------------------------------------
* hypre_SeqVectorCloneDeep
* Returns a complete copy ... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/vector.c | #pragma omp parallel for private(i) schedule(static) | 100 |
int ierr = 0;
size *=hypre_VectorNumVectors(y);
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < size; i++)
y_data[i] *= alpha;
return ierr;
}
/*--------------------------------------------------------------------------
* hypre_SeqVectorAxpy
*---------------------------------... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/vector.c | #pragma omp parallel for private(i) schedule(static) | 100 |
int ierr = 0;
size *=hypre_VectorNumVectors(x);
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < size; i++)
y_data[i] += alpha * x_data[i];
return ierr;
}
/*--------------------------------------------------------------------------
* hypre_SeqVectorInnerProd
*----------------... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/vector.c | #pragma omp parallel for private(i) reduction(+:result) schedule(static) | 100 | i;
double result = 0.0;
size *=hypre_VectorNumVectors(x);
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < size; i++)
result += y_data[i] * x_data[i];
return result;
}
/*--------------------------------------------------------------------------
* hypre_VectorSumElts:
* Returns the sum ... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | ------------------------------------------*/
if (alpha == 0.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows*num_vectors; i++)
y_data[i] *= beta;
return ierr;
}
/*-----------------------------------------------------------------------
* y = (beta/alpha)*y
*-... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | beta / alpha;
if (temp != 1.0)
{
if (temp == 0.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows*num_vectors; i++)
y_data[i] = 0.0;
}
else
{
#ifdef HYPRE_USING_OPENMP
#pragma omp parallel for private(i) schedule(static)
for (i = 0; i < num_rows*num_vect... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | m_rows*num_vectors; i++)
y_data[i] = 0.0;
}
else
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows*num_vectors; i++)
y_data[i] *= temp;
}
}
/*-----------------------------------------------------------------
* y += A*x
*------------------------------------... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i,jj,j,m,tempx) schedule(static) | 100 | to do the A*x multiplication when num_rownnz is smaller than num_rows */
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rownnz; i++)
{
m = A_rownnz[i];
/*
* for (jj = A_i[m]; jj < A_i[m+1]; jj++)
* {
* j = A_j[jj];
* y_data[m] += A... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i,jj,temp,j) schedule(static) | 100 | ride_y + m*idxstride_y] = tempx;
}
}
}
else
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
{
if ( num_vectors==1 )
{
temp = y_data[i];
for (jj = A_i[i]; jj < A_i[i+1]; jj++)
temp += A_data[jj] * x_data[A_j... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | --------------------------------------------*/
if (alpha != 1.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows*num_vectors; i++)
y_data[i] *= alpha;
}
return ierr;
}
/*--------------------------------------------------------------------------
* hypre_CSRMatrixMatvecT
*
* This ver... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | --------------------------------------------*/
if (alpha == 0.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_cols*num_vectors; i++)
y_data[i] *= beta;
return ierr;
}
/*-----------------------------------------------------------------------
* y = (beta/alpha)*y
*-----------... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | beta / alpha;
if (temp != 1.0)
{
if (temp == 0.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_cols*num_vectors; i++)
y_data[i] = 0.0;
}
else
{
#ifdef HYPRE_USING_OPENMP
#pragma omp parallel for private(i) schedule(static)
for (i = 0; i < num_cols*num_vecto... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | m_cols*num_vectors; i++)
y_data[i] = 0.0;
}
else
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_cols*num_vectors; i++)
y_data[i] *= temp;
}
}
/*-----------------------------------------------------------------
* y += A^T*x
*----------------------------------... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | --------------------------------------------*/
if (alpha != 1.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_cols*num_vectors; i++)
y_data[i] *= alpha;
}
return ierr;
}
/*--------------------------------------------------------------------------
* hypre_CSRMatrixMatvec_FF
*----------... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 |
if (alpha == 0.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
if (CF_marker_x[i] == fpt) y_data[i] *= beta;
ret... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 |
if (temp != 1.0)
{
if (temp == 0.0)
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
if (CF_marker_x[i] == fpt) y_data[i] = 0.0;
}
else
{
#ifdef HYPRE_USING_OPENMP
#pragma omp parallel for private(i) schedule(static)
for (... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i) schedule(static) | 100 | if (CF_marker_x[i] == fpt) y_data[i] = 0.0;
}
else
{
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
if (CF_marker_x[i] == fpt) y_data[i] *= temp;
}
}
... |
cea-hpc/pcvs-benchmarks/applications/Corals/AMG2013/seq_mv/csr_matvec.c | #pragma omp parallel for private(i,jj,temp) schedule(static) | 100 |
#ifdef HYPRE_USING_OPENMP
<LOOP-START>for (i = 0; i < num_rows; i++)
{
if (CF_marker_x[i] == fpt)
{
temp = y_data[i];
for (jj = A_i[i]; jj < A_i[i+1]; jj++)
if (CF_marker_y[A_j[jj]] == fpt) temp += A_d... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem) | 100 | Index_t numElem)
{
//
// pull in the stresses appropriate to the hydro integration
//
<LOOP-START>for (Index_t i = 0 ; i < numElem ; ++i){
sigxx[i] = sigyy[i] = sigzz[i] = - domain.p(i) - domain.q(i) ;
}<LOOP-END> <OMP-START>#pragma omp parallel for firstprivate(numElem)<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem) | 100 | te<Real_t>(numElem8) ;
fz_elem = Allocate<Real_t>(numElem8) ;
}
// loop over all elements
<LOOP-START>for( Index_t k=0 ; k<numElem ; ++k )
{
const Index_t* const elemToNode = domain.nodelist(k);
Real_t B[3][8] ;// shape function derivatives
Real_t x_local[8] ;
Real_t y_local[8] ;
Real_t ... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numNode) | 100 | we need to copy the data out of the temporary
// arrays used above into the final forces field
<LOOP-START>for( Index_t gnode=0 ; gnode<numNode ; ++gnode )
{
Index_t count = domain.nodeElemCount(gnode) ;
Index_t *cornerList = domain.nodeElemCornerList(gnode) ;
Real_t fx_tmp = Real_t(0.... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem, hourg) | 100 | t(-1.);
/*************************************************/
/* compute the hourglass modes */
<LOOP-START>for(Index_t i2=0;i2<numElem;++i2){
Real_t *fx_local, *fy_local, *fz_local ;
Real_t hgfx[8], hgfy[8], hgfz[8] ;
Real_t coefficient;
Real_t hourgam[8][4];
Real_t xd1[8], yd1[8], ... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numNode) | 100 | if (numthreads > 1) {
// Collect the data from the local arrays into the final force arrays
<LOOP-START>for( Index_t gnode=0 ; gnode<numNode ; ++gnode )
{
Index_t count = domain.nodeElemCount(gnode) ;
Index_t *cornerList = domain.nodeElemCornerList(gnode) ;
Real_t fx_tmp = Real_... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem) | 100 | al_t>(numElem8) ;
Real_t *z8n = Allocate<Real_t>(numElem8) ;
/* start loop over elements */
<LOOP-START>for (Index_t i=0 ; i<numElem ; ++i){
Real_t x1[8], y1[8], z1[8] ;
Real_t pfx[8], pfy[8], pfz[8] ;
Index_t* elemToNode = domain.nodelist(i);
CollectDomainNodesToElemNodes(domain, el... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem) | 100 | lem,
domain.numNode()) ;
// check for negative element volume
<LOOP-START>for ( Index_t k=0 ; k<numElem ; ++k ) {
if (determ[k] <= Real_t(0.0)) {
#if USE_MPI
MPI_Abort(MPI_COMM_WORLD, VolumeError) ;
#else
exit(VolumeError);
}
... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numNode) | 100 | domain.sizeX() + 1, domain.sizeY() + 1, domain.sizeZ() + 1,
true, false) ;
#endif
<LOOP-START>for (Index_t i=0; i<numNode; ++i) {
domain.fx(i) = Real_t(0.0) ;
domain.fy(i) = Real_t(0.0) ;
domain.fz(i) = Real_t(0.0) ;
}<LOOP-END> <OMP-START>#pragma omp parallel for firstprivate(numNode... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numNode) | 100 | **************/
static inline
void CalcAccelerationForNodes(Domain &domain, Index_t numNode)
{
<LOOP-START>for (Index_t i = 0; i < numNode; ++i) {
domain.xdd(i) = domain.fx(i) / domain.nodalMass(i);
domain.ydd(i) = domain.fy(i) / domain.nodalMass(i);
domain.zdd(i) = domain.fz(i) / domain.nodalMas... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numNode) | 100 | (Domain &domain, const Real_t dt, const Real_t u_cut,
Index_t numNode)
{
<LOOP-START>for ( Index_t i = 0 ; i < numNode ; ++i )
{
Real_t xdtmp, ydtmp, zdtmp ;
xdtmp = domain.xd(i) + domain.xdd(i) * dt ;
if( FABS(xdtmp) < u_cut ) xdtmp = Real_t(0.0);
domain.xd(i) = xdtmp... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numNode) | 100 | *****/
static inline
void CalcPositionForNodes(Domain &domain, const Real_t dt, Index_t numNode)
{
<LOOP-START>for ( Index_t i = 0 ; i < numNode ; ++i )
{
domain.x(i) += domain.xd(i) * dt ;
domain.y(i) += domain.yd(i) * dt ;
domain.z(i) += domain.zd(i) * dt ;
}<LOOP-END> <OMP-START>#pragma omp par... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem, deltaTime) | 100 | w,
Real_t deltaTime, Index_t numElem )
{
// loop over all elements
<LOOP-START>for( Index_t k=0 ; k<numElem ; ++k )
{
Real_t B[3][8] ; /** shape function derivatives */
Real_t D[6] ;
Real_t x_local[8] ;
Real_t y_local[8] ;
Real_t z_local[8] ;
Real_t xd_local[8]... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem) | 100 | deltatime, numElem) ;
// element loop to do some stuff not included in the elemlib function.
<LOOP-START>for ( Index_t k=0 ; k<numElem ; ++k )
{
// calc strain rate and apply as constraint (only done in FB element)
Real_t vdov = domain.dxx(k) + domain.dyy(k) + domain.dzz(k) ;
Rea... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElem) | 100 | onotonicQGradientsForElems(Domain& domain, Real_t vnew[])
{
Index_t numElem = domain.numElem();
<LOOP-START>for (Index_t i = 0 ; i < numElem ; ++i ) {
const Real_t ptiny = Real_t(1.e-36) ;
Real_t ax,ay,az ;
Real_t dxv,dyv,dzv ;
const Index_t *elemToNode = domain.nodelist(i);
Index_t n... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(qlc_monoq, qqc_monoq, monoq_limiter_mult, monoq_max_slope, ptiny) | 100 | q_max_slope();
Real_t qlc_monoq = domain.qlc_monoq();
Real_t qqc_monoq = domain.qqc_monoq();
<LOOP-START>for ( Index_t ielem = 0 ; ielem < domain.regElemSize(r); ++ielem ) {
Index_t i = domain.regElemlist(r,ielem);
Real_t qlin, qquad ;
Real_t phixi, phieta, phizeta ;
Int_t bcMask = domain... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length) | 100 | Real_t p_cut, Real_t eosvmax,
Index_t length, Index_t *regElemList)
{
<LOOP-START>for (Index_t i = 0; i < length ; ++i) {
Real_t c1s = Real_t(2.0)/Real_t(3.0) ;
bvc[i] = c1s * (compression[i] + Real_t(1.));
pbvc[i] = c1s;
}<LOOP-END> <OMP-START>#pragma omp parallel for... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, pmin, p_cut, eosvmax) | 100 | t(2.0)/Real_t(3.0) ;
bvc[i] = c1s * (compression[i] + Real_t(1.));
pbvc[i] = c1s;
}
<LOOP-START>for (Index_t i = 0 ; i < length ; ++i){
Index_t elem = regElemList[i];
p_new[i] = bvc[i] * e_old[i] ;
if (FABS(p_new[i]) < p_cut )
p_new[i] = Real_t(0.0) ;
if ... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, emin) | 100 | Index_t length, Index_t *regElemList)
{
Real_t *pHalfStep = Allocate<Real_t>(length) ;
<LOOP-START>for (Index_t i = 0 ; i < length ; ++i) {
e_new[i] = e_old[i] - Real_t(0.5) * delvc[i] * (p_old[i] + q_old[i])
+ Real_t(0.5) * work[i];
if (e_new[i] < emin ) {
e_new[i] = emin ;... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, rho0) | 100 | c, e_new, compHalfStep, vnewc,
pmin, p_cut, eosvmax, length, regElemList);
<LOOP-START>for (Index_t i = 0 ; i < length ; ++i) {
Real_t vhalf = Real_t(1.) / (Real_t(1.) + compHalfStep[i]) ;
if ( delvc[i] > Real_t(0.) ) {
q_new[i] /* = qq_old[i] = ql_old[i] */ = Real_t(0.) ;... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, emin, e_cut) | 100 | eal_t(3.0)*(p_old[i] + q_old[i])
- Real_t(4.0)*(pHalfStep[i] + q_new[i])) ;
}
<LOOP-START>for (Index_t i = 0 ; i < length ; ++i) {
e_new[i] += Real_t(0.5) * work[i];
if (FABS(e_new[i]) < e_cut) {
e_new[i] = Real_t(0.) ;
}
if ( e_new[i] < emin ) {
e... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, rho0, emin, e_cut) | 100 | vc, e_new, compression, vnewc,
pmin, p_cut, eosvmax, length, regElemList);
<LOOP-START>for (Index_t i = 0 ; i < length ; ++i){
const Real_t sixth = Real_t(1.0) / Real_t(6.0) ;
Index_t elem = regElemList[i];
Real_t q_tilde ;
if (delvc[i] > Real_t(0.)) {
q_tilde ... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, rho0, q_cut) | 100 | vc, e_new, compression, vnewc,
pmin, p_cut, eosvmax, length, regElemList);
<LOOP-START>for (Index_t i = 0 ; i < length ; ++i){
Index_t elem = regElemList[i];
if ( delvc[i] <= Real_t(0.) ) {
Real_t ssc = ( pbvc[i] * e_new[i]
+ vnewc[elem] * vnewc[elem] * bv... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(rho0, ss4o3) | 100 | Real_t *bvc, Real_t ss4o3,
Index_t len, Index_t *regElemList)
{
<LOOP-START>for (Index_t i = 0; i < len ; ++i) {
Index_t elem = regElemList[i];
Real_t ssTmp = (pbvc[i] * enewc[i] + vnewc[elem] * vnewc[elem] *
bvc[i] * pnewc[i]) / rho0;
if (ssTmp <= ... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(numElemReg) | 100 | qq_old, ql_old, rho0, eosvmax,
numElemReg, regElemList);
}
<LOOP-START>for (Index_t i=0; i<numElemReg; ++i) {
Index_t elem = regElemList[i];
domain.p(elem) = p_new[i] ;
domain.e(elem) = e_new[i] ;
domain.q(elem) = q_new[i] ;
}<LOOP-END> <OMP-START>#pra... |
cea-hpc/pcvs-benchmarks/applications/Corals/lulesh-2.0.3/lulesh.cc | #pragma omp parallel for firstprivate(length, v_cut) | 100 | ain, Real_t *vnew,
Real_t v_cut, Index_t length)
{
if (length != 0) {
<LOOP-START>for(Index_t i=0 ; i<length ; ++i) {
Real_t tmpV = vnew[i] ;
if ( FABS(tmpV - Real_t(1.0)) < v_cut )
tmpV = Real_t(1.0) ;
domain.v(i) = tmpV ;
}<LOOP-END> <OMP-ST... |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/perform_element_loop.hpp | #pragma omp parallel for shared (elemIDs) | 100 | iter.x, iter.y, iter.z);
}
timer_type t_gn = 0, t_ce = 0, t_si = 0;
timer_type t0 = 0;
<LOOP-START>for(MINIFE_GLOBAL_ORDINAL i=0; i < elemIDs.size(); ++i) {
ElemData<GlobalOrdinal,Scalar> elem_data;
compute_gradient_values(elem_data.grad_vals);
get_elem_nodes_and_coords(mesh, elemIDs[i], elem_... |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/generate_matrix_structure.hpp | #pragma omp parallel for | 100 | ffset_ptr = &row_offsets[0];
MINIFE_LOCAL_ORDINAL* const row_coords_ptr = &row_coords[0];
<LOOP-START>for(int r = 0; r < r_n; ++r) {
int iz = r / (xy_width) + box[2][0];
int iy = (r / x_width) % y_width + box[1][0];
int ix = r % x_width + box[0][0];
GlobalOrdinal row_id =
... |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/exchange_externals.hpp | #pragma omp parallel for | 100 | .size();
#ifdef MINIFE_DEBUG
os << "total_to_be_sent: " << total_to_be_sent << std::endl;
#endif
<LOOP-START>for(size_t i=0; i<total_to_be_sent; ++i) {
#ifdef MINIFE_DEBUG
//expensive index range-check:
if (elements_to_send[i] < 0 || elements_to_send[i] > x.coefs.size()) {
os << "error, out-of-range. x... |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | y.coefs[0];
ScalarType* wcoefs = &w.coefs[0];
if(beta == 0.0) {
if(alpha == 1.0) {
<LOOP-START>for(int i=0; i<n; ++i) {
wcoefs[i] = xcoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | a omp parallel for
for(int i=0; i<n; ++i) {
wcoefs[i] = xcoefs[i];
}
} else {
<LOOP-START>for(int i=0; i<n; ++i) {
wcoefs[i] = alpha * xcoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | =0; i<n; ++i) {
wcoefs[i] = alpha * xcoefs[i];
}
}
} else {
if(alpha == 1.0) {
<LOOP-START>for(int i=0; i<n; ++i) {
wcoefs[i] = xcoefs[i] + beta * ycoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | for(int i=0; i<n; ++i) {
wcoefs[i] = xcoefs[i] + beta * ycoefs[i];
}
} else {
<LOOP-START>for(int i=0; i<n; ++i) {
wcoefs[i] = alpha * xcoefs[i] + beta * ycoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | &x.coefs[0];
MINIFE_SCALAR* ycoefs = &y.coefs[0];
if(alpha == 1.0 && beta == 1.0) {
<LOOP-START>for(int i = 0; i < n; ++i) {
ycoefs[i] += xcoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 |
for(int i = 0; i < n; ++i) {
ycoefs[i] += xcoefs[i];
}
} else if (beta == 1.0) {
<LOOP-START>for(int i = 0; i < n; ++i) {
ycoefs[i] += alpha * xcoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | nt i = 0; i < n; ++i) {
ycoefs[i] += alpha * xcoefs[i];
}
} else if (alpha == 1.0) {
<LOOP-START>for(int i = 0; i < n; ++i) {
ycoefs[i] = xcoefs[i] + beta * ycoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | i < n; ++i) {
ycoefs[i] = xcoefs[i] + beta * ycoefs[i];
}
} else if (beta == 0.0) {
<LOOP-START>for(int i = 0; i < n; ++i) {
ycoefs[i] = alpha * xcoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
cea-hpc/pcvs-benchmarks/applications/Corals/miniFe/src/Vector_functions.hpp | #pragma omp parallel for | 100 | rallel for
for(int i = 0; i < n; ++i) {
ycoefs[i] = alpha * xcoefs[i];
}
} else {
<LOOP-START>for(int i = 0; i < n; ++i) {
ycoefs[i] = alpha * xcoefs[i] + beta * ycoefs[i];
}<LOOP-END> <OMP-START>#pragma omp parallel for<OMP-END> |
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