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#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <sys/time.h>
#include <mpi.h>
#include "/users/guest/petyros/Training/External_Functions/matrix_op.h"
#include "/users/guest/petyros/Training/External_Functions/util.h"
#include "/users/guest/petyros/Training/External_Functions/input.h"
int main(int argc, char ** argv) {
int rank,size;
int global_nm[2],local_nm[2]; //global matrix dimensions and local matrix dimensions (2D-domain, 2D-subdomain)
int global_padded_nm[2]; //padded global matrix dimensions (if padding is not needed, global_padded=global)
int i,j,k, sparse=0, *cooCol, n_z, *I;
double * M, * A, * x, * y, *local_y, * cooVal, comm_t, comp_t;
MPI_Init(&argc,&argv);
MPI_Comm_size(MPI_COMM_WORLD,&size);
MPI_Comm_rank(MPI_COMM_WORLD,&rank);
if (argc < 2) error("Too few Arguments");
else if ( argc == 2) /* ./Program Input_File -> File Input to COO */
{
if(!mtx_read(&I, &cooCol, &cooVal, &global_nm[0], &global_nm[1], &n_z, argv[1])) error("input and/or COO convertion failed");
sparse = 1;
}
else if ( argc == 3) { /*./Program N M -> Generate random NxM matrix */
global_nm[0]=atoi(argv[1]);
global_nm[1]=atoi(argv[2]);
}
else error("Too many Arguments");
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local_nm[1]=global_nm[1];
global_padded_nm[1]=global_nm[1];
if (global_nm[0]%size==0) {
local_nm[0]=global_nm[0]/size;
global_padded_nm[0]=global_nm[0];
}
else {
local_nm[0]=(global_nm[0]/size)+1;
global_padded_nm[0]=local_nm[0]*size;
}
x = (double *) malloc(global_padded_nm[1] * sizeof(*x));
if (rank==0) {
M = (double *) malloc(global_padded_nm[0] * global_padded_nm[1] * sizeof(*M));
vec_init_rand(x, global_padded_nm[1], 1.0);
y = (double *) malloc(global_padded_nm[0] * sizeof(*y));
vec_init(y, global_padded_nm[0], 0.0);
if( !y || !x || !M ) error("memory allocation failed");
/* Initialize matrices */
if (sparse) {
; //regenerate_matrix_coo(M, I, cooCol, cooVal, n, m, n_z); /* Sparse matrices read from .mtx format */
}
else ser_matrix_init_rand_p(M, global_nm[0], global_nm[1], global_padded_nm[1] * (global_padded_nm[0] - global_nm[0]), 1.0); /* Normal matrices generated randomly */
}
local_y = (double *) malloc(local_nm[0] * sizeof(*local_y));
vec_init(local_y, local_nm[0], 0.0);
//if(rank==0) printf("Local[0]=%d Local[1]=%d global_padded[0]=%d global_padded[1]=%d\n",local[0],local[1],global_padded[0],global_padded[1]);
A = (double *) malloc(local_nm[0] * local_nm[1] * sizeof(*A));
#pragma omp parallel for schedule(static) /* Initialize data for each thread in corresponding socket with first-touch policy */
for( i=0 ; i<local_nm[0] ; ++i){
for ( j=0 ; j< local_nm[1] ; ++j) A[i*local_nm[1]+j]=0.0;
//printf( "Initialize data Thread=%d i=%d\n", omp_get_thread_num(), i);
}
double * gsendbuf;
if (rank == 0){
gsendbuf = &(M[0]);
comm_t= MPI_Wtime();
}
MPI_Scatter(gsendbuf, local_nm[1] * local_nm[0], MPI_DOUBLE, A, local_nm[1] * local_nm[0], MPI_DOUBLE, 0, MPI_COMM_WORLD);
//if (rank == 0) printf("Scatter complete\n");
MPI_Bcast(x, global_padded_nm[1], MPI_DOUBLE, 0, MPI_COMM_WORLD);
if (rank==0) {
printf("MPI Version(N=%d, M=%d, Tasks=%d, Nodes=%s, Tasks/Node=%s, threads=%s): ", global_nm[0], global_nm[1], size,
getenv("SLURM_JOB_NUM_NODES"), getenv("SLURM_NTASKS_PER_NODE"), getenv("OMP_NUM_THREADS"));
comp_t= MPI_Wtime();
}
for (i = 0; i < NR_ITER; ++i){
register double yi = 0;
#pragma omp parallel for private(j,yi) shared(local_nm,A,local_y) schedule(static)
for (k = 0; k < local_nm[0]; ++k) {
//printf( "Compute Thread=%d i=%d\n", omp_get_thread_num(), k);
yi = 0.0;
for (j = 0; j < local_nm[1]; ++j) yi += A[k*local_nm[1]+j]*x[j];
local_y[k] = yi;
}
}
MPI_Barrier(MPI_COMM_WORLD);
if (rank==0) comp_t= MPI_Wtime() - comp_t;
MPI_Gather(local_y, local_nm[0], MPI_DOUBLE, y, local_nm[0], MPI_DOUBLE, 0, MPI_COMM_WORLD);
if (rank==0) {
comm_t = MPI_Wtime() - comm_t - comp_t;
/* Output y vector to a file for debugging */
FILE * fp;
char * filename = "/users/guest/petyros/Training/Outputs/Debug/MPI-OpenMP.out" ;
if(( fp = fopen( filename, "w")) == NULL) error("Output file creation failed\n");
for (k = 0; k < global_nm[0]; ++k) fprintf(fp, "%lf ", y[k]) ;
fclose(fp) ;
#endif
report_mpi_results(comm_t, comp_t);
free(M);
free(y);
}
free(x);
free(local_y);
free(A);
MPI_Finalize();
return 0;
}