/* { dg-do run } */ #include #define EPS 0.0001 #define N 1024*1024 void init (float B[], float C[], int n) { int i; for (i = 0; i < n; i++) { B[i] = 0.1 * i; C[i] = 0.01 * i * i; } } float dotprod_ref (float B[], float C[], int n) { int i; float sum = 0.0; for (i = 0; i < n; i++) sum += B[i] * C[i]; return sum; } float dotprod (float B[], float C[], int n, int block_size, int num_teams, int block_threads) { int i, i0; float sum = 0; #pragma omp target map(to: B[0:n], C[0:n]) #pragma omp teams num_teams(num_teams) thread_limit(block_threads) \ reduction(+:sum) #pragma omp distribute for (i0 = 0; i0 < n; i0 += block_size) #pragma omp parallel for reduction(+:sum) for (i = i0; i < ((i0 + block_size > n) ? n : i0 + block_size); i++) sum += B[i] * C[i]; return sum; } void check (float a, float b) { float err = (b == 0.0) ? a : (a - b) / b; if (((err > 0) ? err : -err) > EPS) abort (); } int main () { float *v1 = (float *) malloc (N * sizeof (float)); float *v2 = (float *) malloc (N * sizeof (float)); float p1, p2; init (v1, v2, N); p1 = dotprod_ref (v1, v2, N); p2 = dotprod (v1, v2, N, N / 8, 2, 8); check (p1, p2); free (v1); free (v2); return 0; }