int main(int argc, char **argv) { int n = N; double(*A)[N][N]; A = (double(*)[N][N])polybench_alloc_data((N) * (N), sizeof(double)); double(*x1)[N]; x1 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*x2)[N]; x2 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*y_1)[N]; y_1 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*y_2)[N]; y_2 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); init_array(n, *x1, *x2, *y_1, *y_2, *A); polybench_timer_start(); kernel_mvt(n, *x1, *x2, *y_1, *y_2, *A); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(n, *x1, *x2); free((void *)A); free((void *)x1); free((void *)x2); free((void *)y_1); free((void *)y_2); return 0; }
int main(int argc, char **argv) { int ni = NI; int nj = NJ; int nk = NK; int nl = NL; double alpha; double beta; double(*tmp)[NI][NJ]; tmp = (double(*)[NI][NJ])polybench_alloc_data((NI) * (NJ), sizeof(double)); double(*A)[NI][NK]; A = (double(*)[NI][NK])polybench_alloc_data((NI) * (NK), sizeof(double)); double(*B)[NK][NJ]; B = (double(*)[NK][NJ])polybench_alloc_data((NK) * (NJ), sizeof(double)); double(*C)[NJ][NL]; C = (double(*)[NJ][NL])polybench_alloc_data((NJ) * (NL), sizeof(double)); double(*D)[NI][NL]; D = (double(*)[NI][NL])polybench_alloc_data((NI) * (NL), sizeof(double)); init_array(ni, nj, nk, nl, &alpha, &beta, *A, *B, *C, *D); polybench_timer_start(); kernel_2mm(ni, nj, nk, nl, alpha, beta, *tmp, *A, *B, *C, *D); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(ni, nl, *D); free((void *)tmp); free((void *)A); free((void *)B); free((void *)C); free((void *)D); return 0; }
int main(int argc, char **argv) { int n = N; int m = M; double(*A)[N][M]; A = (double(*)[N][M])polybench_alloc_data((N) * (M), sizeof(double)); double(*s)[M]; s = (double(*)[M])polybench_alloc_data(M, sizeof(double)); double(*q)[N]; q = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*p)[M]; p = (double(*)[M])polybench_alloc_data(M, sizeof(double)); double(*r)[N]; r = (double(*)[N])polybench_alloc_data(N, sizeof(double)); init_array(m, n, *A, *r, *p); polybench_timer_start(); kernel_bicg(m, n, *A, *s, *q, *p, *r); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(m, n, *s, *q); free((void *)A); free((void *)s); free((void *)q); free((void *)p); free((void *)r); return 0; }
int main(int argc, char **argv) { int n = N; double(*A)[N][N]; A = (double(*)[N][N])polybench_alloc_data((N) * (N), sizeof(double)); init_array(n, *A); polybench_timer_start(); kernel_cholesky(n, *A); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(n, *A); free((void *)A); return 0; }
int main(int argc, char** argv) { int n = N; int tsteps = TSTEPS; double(*A)[N][N]; A = (double(*)[N][N])polybench_alloc_data((N) * (N), sizeof(double)); double(*B)[N][N]; B = (double(*)[N][N])polybench_alloc_data((N) * (N), sizeof(double)); init_array(n, *A, *B); polybench_timer_start(); kernel_jacobi_2d(tsteps, n, *A, *B); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(n, *A); free((void*)A); free((void*)B); return 0; }
int main(int argc, char **argv) { int n = N; double alpha; double beta; double(*A)[N][N]; A = (double(*)[N][N])polybench_alloc_data((N) * (N), sizeof(double)); double(*u1)[N]; u1 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*v1)[N]; v1 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*u2)[N]; u2 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*v2)[N]; v2 = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*w)[N]; w = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*x)[N]; x = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*y)[N]; y = (double(*)[N])polybench_alloc_data(N, sizeof(double)); double(*z)[N]; z = (double(*)[N])polybench_alloc_data(N, sizeof(double)); init_array(n, &alpha, &beta, *A, *u1, *v1, *u2, *v2, *w, *x, *y, *z); polybench_timer_start(); kernel_gemver(n, alpha, beta, *A, *u1, *v1, *u2, *v2, *w, *x, *y, *z); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(n, *w); free((void *)A); free((void *)u1); free((void *)v1); free((void *)u2); free((void *)v2); free((void *)w); free((void *)x); free((void *)y); free((void *)z); return 0; }
int main(int argc, char** argv) { int m = 1900; int n = 2100; double (*A)[m + 0][n + 0]; A = (double(*)[m + 0][n + 0])polybench_alloc_data ((m + 0) * (n + 0), sizeof(double));; double (*x)[n + 0]; x = (double(*)[n + 0])polybench_alloc_data (n + 0, sizeof(double));; double (*y)[n + 0]; y = (double(*)[n + 0])polybench_alloc_data (n + 0, sizeof(double));; double (*tmp)[m + 0]; tmp = (double(*)[m + 0])polybench_alloc_data (m + 0, sizeof(double));; init_array (m, n, *A, *x); polybench_timer_start(); kernel_atax (m, n, *A, *x, *y, *tmp); polybench_timer_stop();; polybench_timer_print();; if (argc > 42 && ! strcmp(argv[0], "")) print_array(n, *y); free((void*)A);; free((void*)x);; free((void*)y);; free((void*)tmp);; return 0; }
int main(int argc, char** argv) { int tmax = TMAX; int nx = NX; int ny = NY; double(*ex)[NX][NY]; ex = (double(*)[NX][NY])polybench_alloc_data((NX) * (NY), sizeof(double)); double(*ey)[NX][NY]; ey = (double(*)[NX][NY])polybench_alloc_data((NX) * (NY), sizeof(double)); double(*hz)[NX][NY]; hz = (double(*)[NX][NY])polybench_alloc_data((NX) * (NY), sizeof(double)); double(*_fict_)[TMAX]; _fict_ = (double(*)[TMAX])polybench_alloc_data(TMAX, sizeof(double)); init_array(tmax, nx, ny, *ex, *ey, *hz, *_fict_); polybench_timer_start(); kernel_fdtd_2d(tmax, nx, ny, *ex, *ey, *hz, *_fict_); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(nx, ny, *ex, *ey, *hz) free((void*)ex); free((void*)ey); free((void*)hz); free((void*)_fict_); return 0; }
int main(int argc, char** argv) { int w = W; int h = H; float alpha; float(*imgIn)[W][H]; imgIn = (float(*)[W][H])polybench_alloc_data((W) * (H), sizeof(float)); float(*imgOut)[W][H]; imgOut = (float(*)[W][H])polybench_alloc_data((W) * (H), sizeof(float)); float(*y1)[W][H]; y1 = (float(*)[W][H])polybench_alloc_data((W) * (H), sizeof(float)); float(*y2)[W][H]; y2 = (float(*)[W][H])polybench_alloc_data((W) * (H), sizeof(float)); init_array(w, h, &alpha, *imgIn, *imgOut); polybench_timer_start(); kernel_deriche(w, h, alpha, *imgIn, *imgOut, *y1, *y2); polybench_timer_stop(); polybench_timer_print(); if (argc > 42 && !strcmp(argv[0], "")) print_array(w, h, *imgOut); free((void*)imgIn); free((void*)imgOut); free((void*)y1); free((void*)y2); return 0; }
void alnsb_timer_stop () { polybench_timer_stop (); }