Commit 4d35b552 authored by iker_martin's avatar iker_martin
Browse files

WIP - Se esta arreglando un error de memoria - Anadiendo salida de tiempos

parent a539c1cc
......@@ -57,6 +57,7 @@ static int handler(void* user, const char* section, const char* name,
} else {
pconfig->phy_dist[act_resize] = COMM_PHY_CPU;
}
free(aux);
pconfig->actual_resize = pconfig->actual_resize+1; // Ultimo elemento del grupo
......@@ -130,11 +131,11 @@ void free_config(configuration *user_config) {
* Imprime por salida estandar toda la informacion que contiene
* la configuracion pasada como argumento
*/
void print_config(configuration *user_config, int numP) {
void print_config(configuration *user_config, int grp) {
if(user_config != NULL) {
int i;
printf("Config loaded: resizes=%d, matrix=%d, sdr=%d, adr=%d, time=%f || NUMP=%d\n",
user_config->resizes, user_config->matrix_tam, user_config->sdr, user_config->adr, user_config->general_time, numP);
printf("Config loaded: resizes=%d, matrix=%d, sdr=%d, adr=%d, aib=%d time=%f || grp=%d\n",
user_config->resizes, user_config->matrix_tam, user_config->sdr, user_config->adr, user_config->aib, user_config->general_time, grp);
for(i=0; i<user_config->resizes; i++) {
printf("Resize %d: Iters=%d, Procs=%d, Factors=%f, Phy=%d\n",
i, user_config->iters[i], user_config->procs[i], user_config->factors[i], user_config->phy_dist[i]);
......@@ -143,6 +144,25 @@ void print_config(configuration *user_config, int numP) {
}
void print_config_group(configuration *user_config, int grp) {
if(user_config != NULL) {
int parents, sons;
parents = sons = 0;
if(grp > 0) {
parents = user_config->procs[grp-1];
}
if(grp < user_config->resizes - 1) {
sons = user_config->procs[grp+1];
}
printf("Config: matrix=%d, sdr=%d, adr=%d, aib=%d time=%f\n",
user_config->matrix_tam, user_config->sdr, user_config->adr, user_config->aib, user_config->general_time);
printf("Config Group: iters=%d, factor=%f, phy=%d, procs=%d, parents=%d, sons=%d\n",
user_config->iters[grp], user_config->factors[grp], user_config->phy_dist[grp], user_config->procs[grp], parents, sons);
}
}
//||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ||
//||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ||
......
......@@ -18,7 +18,8 @@ typedef struct
configuration *read_ini_file(char *file_name);
void free_config(configuration *user_config);
void print_config(configuration *user_config, int numP);
void print_config(configuration *user_config, int grp);
void print_config_group(configuration *user_config, int grp);
// MPI Intercomm functions
void send_config_file(configuration *config_file, int root, MPI_Comm intercomm);
......
......@@ -15,7 +15,7 @@ void TC(int numS);
int start_redistribution(int numS, MPI_Request **comm_req);
int check_redistribution(int iter, MPI_Request **comm_req);
void iterate(double *matrix, int n);
void iterate(double *matrix, int n, int async_comm);
void computeMatrix(double *matrix, int n);
void initMatrix(double **matrix, int n);
......@@ -34,10 +34,15 @@ typedef struct {
configuration *config_file;
group_data *group;
// Variables sobre resultados
//int *iters_time, *iters_type, iter_index;
int main(int argc, char *argv[]) {
int numP, myId;
int numP, myId, i;
int thread_level;
MPI_Init(&argc, &argv);
MPI_Init_thread(&argc, &argv, MPI_THREAD_MULTIPLE, &thread_level);
MPI_Comm_size(MPI_COMM_WORLD, &numP);
MPI_Comm_rank(MPI_COMM_WORLD, &myId);
......@@ -61,18 +66,46 @@ int main(int argc, char *argv[]) {
}
}
if(myId== ROOT) print_config(config_file, numP);
//iters_time = malloc(config_file->iters[group->grp] * 3 * sizeof(int));
//iters_type = malloc(config_file->iters[group->grp] * 3 * sizeof(int));
//iter_index = 0;
//if(myId== ROOT) print_config(config_file, group->grp);
int res = work();
if(res) { // Ultimo set de procesos muestra resultados
//RESULTADOS
/*
if(myId == ROOT) {
print_config_group(config_file, group->grp);
printf("Titer: ");
for(i=0; i<iter_index; i++) {
printf("%d ", iters_time[i]);
}
printf("\nTop: ");
for(i=0; i<iter_index; i++) {
printf("%d ", iters_type[i]);
}
printf("\n");
free(iters_time);
free(iters_type);
}
*/
/*
int len;
char *name = malloc(MPI_MAX_PROCESSOR_NAME * sizeof(char));
char *version = malloc(MPI_MAX_LIBRARY_VERSION_STRING * sizeof(char));
MPI_Get_processor_name(name, &len);
MPI_Get_library_version(version, &len);
printf("P%d Nuevo GRUPO %d de %d procs en nodo %s con %s\n", myId, group->grp, numP, name, version);
*/
free_config(config_file);
free(group->sync_array);
free(group->async_array);
free(group);
MPI_Finalize();
return 0;
}
......@@ -95,17 +128,19 @@ int work() {
maxiter = config_file->iters[group->grp];
initMatrix(&matrix, config_file->matrix_tam);
state = MAL_COMM_UNINITIALIZED;
for(iter=group->iter_start; iter < maxiter; iter++) {
iterate(matrix, config_file->matrix_tam);
iterate(matrix, config_file->matrix_tam, state);
}
state = checkpoint(iter, MAL_COMM_UNINITIALIZED, &async_comm);
state = checkpoint(iter, state, &async_comm);
iter = 0;
while(state == MAL_ASYNC_PENDING) {
iterate(matrix, config_file->matrix_tam);
iterate(matrix, config_file->matrix_tam, state);
iter++;
state = checkpoint(iter, state, &async_comm);
}
......@@ -120,7 +155,7 @@ int work() {
*
* Si hay datos asincronos a transmitir, primero se comienza a
* transmitir estos y se termina la funcion. Se tiene que comprobar con
* llamando a la función de nuevo que se han terminado de enviar //TODO
* llamando a la función de nuevo que se han terminado de enviar
*
* Si hay ademas datos sincronos a enviar, no se envian aun.
*
......@@ -196,7 +231,7 @@ int check_redistribution(int iter, MPI_Request **comm_req) {
test_err = MPI_Test(req_completed, &completed, MPI_STATUS_IGNORE);
if (test_err != MPI_SUCCESS && test_err != MPI_ERR_PENDING) {
printf("P%d aborting\n", group->myId);
printf("P%d aborting -- Test Async\n", group->myId);
MPI_Abort(MPI_COMM_WORLD, test_err);
}
......@@ -204,19 +239,20 @@ int check_redistribution(int iter, MPI_Request **comm_req) {
if(!all_completed) return MAL_ASYNC_PENDING; // Continue only if asynchronous send has ended
iter_send = iter;
//MPI_Barrier(MPI_COMM_WORLD); if(group->myId == ROOT){ printf("TEST 2.A0.5\n"); fflush(stdout);} //FIXME BORRAR
MPI_Bcast(&iter_send, 1, MPI_INT, rootBcast, group->children);
if(config_file->sdr > 0) {
//MPI_Barrier(MPI_COMM_WORLD); if(group->myId == ROOT){ printf("TEST 2.A0.5a\n"); fflush(stdout);} //FIXME BORRAR
if(config_file->sdr > 0) { // Realizar envio sincrono
send_sync(group->sync_array, config_file->sdr, group->myId, group->numP, ROOT, group->children, numS);
}
if(config_file->aib == MAL_USE_IBARRIER) {
MPI_Wait(&(*comm_req)[0], MPI_STATUS_IGNORE); // Indicar como completado el envio asincrono
}
free(*comm_req);
// Desconectar intercomunicador con los hijos
MPI_Comm_disconnect(&(group->children));
free(*comm_req);
return MAL_COMM_COMPLETED;
}
......@@ -259,15 +295,33 @@ void Sons_init() {
* Simula la ejecucción de una iteración de computo en la aplicación
* que dura al menos un tiempo de "time" segundos.
*/
void iterate(double *matrix, int n) {
void iterate(double *matrix, int n, int async_comm) {
double start_time, actual_time;
double time = config_file->general_time * config_file->factors[group->grp];
int i, operations = 0;
start_time = actual_time = MPI_Wtime();
/*
if(async_comm == MAL_ASYNC_PENDING) { // Se esta realizando una redistribucion de datos asincrona
operations = iters_type[iter_index - 1];
for (i=0; i<operations; i++) {
computeMatrix(matrix, n);
actual_time = MPI_Wtime(); // Guardar tiempos
}
operations = 0;
} else { // No hay redistribucion de datos actualmente
*/
while (actual_time - start_time < time) {
computeMatrix(matrix, n);
actual_time = MPI_Wtime();
operations++;
actual_time = MPI_Wtime(); // Guardar tiempos
}
//}
//iters_time[iter_index] = actual_time - start_time;
//iters_type[iter_index] = operations;
//iters_type++;
}
/*
......
......@@ -46,13 +46,19 @@ void malloc_comm_array(char **array, int qty, int myId, int numP) {
struct Dist_data dist_data;
get_dist(qty, myId, numP, &dist_data);
*array = malloc(dist_data.tamBl * sizeof(char));
if( (*array = malloc(dist_data.tamBl * sizeof(char))) == NULL) {
printf("Memory Error (Malloc Arrays(%d))\n", dist_data.tamBl);
exit(1);
}
/*
int i;
for(i=0; i<dist_data.tamBl; i++) {
(*array)[i] = '!' + i + dist_data.ini;
}
// printf("P%d Tam %d String: %s\n", myId, dist_data.tamBl, *array);
printf("P%d Tam %d String: %s\n", myId, dist_data.tamBl, *array);
*/
}
//================================================================================
......@@ -287,7 +293,7 @@ void send_async_arrays(struct Dist_data dist_data, char *array, int rootBcast, i
set_counts(i, numP_child, dist_data, counts.counts);
counts.displs[i] = counts.displs[i-1] + counts.counts[i-1];
}
//print_counts(dist_data, counts.counts, counts.displs, numP_child, "Padres");
print_counts(dist_data, counts.counts, counts.displs, numP_child, "Padres");
/* COMUNICACION DE DATOS */
MPI_Ialltoallv(array, counts.counts, counts.displs, MPI_CHAR, NULL, counts.zero_arr, counts.zero_arr, MPI_CHAR, dist_data.intercomm, comm_req);
......@@ -312,7 +318,7 @@ void recv_async_arrays(struct Dist_data dist_data, char *array, int root, int nu
set_counts(i, numP_parents, dist_data, counts.counts);
counts.displs[i] = counts.displs[i-1] + counts.counts[i-1];
}
//print_counts(dist_data, counts.counts, counts.displs, numP_parents, "Hijos");
print_counts(dist_data, counts.counts, counts.displs, numP_parents, "Hijos");
/* COMUNICACION DE DATOS */
MPI_Ialltoallv(aux, counts.zero_arr, counts.zero_arr, MPI_CHAR, array, counts.counts, counts.displs, MPI_CHAR, dist_data.intercomm, comm_req);
......
......@@ -4,7 +4,7 @@
#include <string.h>
#define MAL_COMM_COMPLETED 0
#define MAL_COMM_UNINITIALIZED 0
#define MAL_COMM_UNINITIALIZED 2
#define MAL_ASYNC_PENDING 1
#define MAL_USE_NORMAL 0
......
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