#include "msg/msg.h"
#include "xbt/matrix.h"
#include "xbt/log.h"
+
+// #define BENCH_THIS_CODE /* Will only work from within the source tree as we require xbt/xbt_os_time.h, that is not public yet) */
+#ifdef BENCH_THIS_CODE
#include "xbt/xbt_os_time.h"
+#endif
+
+/** @addtogroup MSG_examples
+ *
+ * - <b>pmm/msg_pmm.c</b>: Parallel Matrix Multiplication is a little
+ * application. This is something that most MPI developper have
+ * written during their class, here implemented using MSG instead
+ * of MPI.
+ */
XBT_LOG_NEW_DEFAULT_CATEGORY(msg_pmm,
"Messages specific for this msg example");
-/* This example should always be executed using a MATRIX_SIZE multiple of
- * GRID_SIZE and with GRID_SIZE^2 nodes. */
-#define MATRIX_SIZE 900
-#define GRID_SIZE 3
+/* This example should always be executed using a deployment of
+ * GRID_SIZE * GRID_SIZE nodes. */
+#define GRID_SIZE 3 /* Modify to adjust the grid's size */
+#define NODE_MATRIX_SIZE 300 /* Ammount of work done by each node*/
-#define MAILBOX_NAME_SIZE 10
#define GRID_NUM_NODES GRID_SIZE * GRID_SIZE
-#define NODE_MATRIX_SIZE MATRIX_SIZE / GRID_SIZE
+#define MATRIX_SIZE NODE_MATRIX_SIZE * GRID_SIZE
+#define MAILBOX_NAME_SIZE 10
#define NEIGHBOURS_COUNT GRID_SIZE - 1
/*
xbt_matrix_t B;
} s_node_job_t, *node_job_t;
-/**
+/*
* Structure for recovering results
*/
typedef struct s_result {
xbt_matrix_t A, B, C = NULL, sA, sB, sC;
result_t result;
- xbt_assert0(argc != 1, "Wrong number of arguments for this node");
+ xbt_assert(argc != 1, "Wrong number of arguments for this node");
/* Initialize the node's data-structures */
myid = atoi(argv[1]);
/* The rest: return the result to node 0 */
}else{
- m_task_t task;
+ msg_task_t task;
XBT_VERB("Multiplication done. Send the sub-result.");
result->sC =
xbt_matrix_new_sub(sC, NODE_MATRIX_SIZE, NODE_MATRIX_SIZE, 0, 0, NULL);
task = MSG_task_create("result",100,100,result);
- MSG_task_dsend(task, "0", NULL);
+ MSG_task_dsend(task, "0", (void_f_pvoid_t) MSG_task_destroy);
}
/* Clean up and finish*/
{
int node;
char node_mbox[MAILBOX_NAME_SIZE];
- m_task_t task;
+ msg_task_t task;
msg_comm_t comms[GRID_NUM_NODES - 1] = {0};
XBT_VERB("Broadcast Jobs");
static node_job_t wait_job(int selfid)
{
- m_task_t task = NULL;
+ msg_task_t task = NULL;
char self_mbox[MAILBOX_NAME_SIZE];
node_job_t job;
snprintf(self_mbox, MAILBOX_NAME_SIZE - 1, "%d", selfid);
{
int node;
char node_mbox[MAILBOX_NAME_SIZE];
- m_task_t task;
+ msg_task_t task;
xbt_matrix_t sM;
for(node=0; node < num_nodes; node++){
static void get_sub_matrix(xbt_matrix_t *sM, int selfid)
{
- m_task_t task = NULL;
+ msg_task_t task = NULL;
char node_mbox[MAILBOX_NAME_SIZE];
XBT_VERB("Get sub-matrix");
}
static void task_cleanup(void *arg){
- m_task_t task = (m_task_t)arg;
+ msg_task_t task = (msg_task_t)arg;
xbt_matrix_t m = (xbt_matrix_t)MSG_task_get_data(task);
xbt_matrix_free(m);
MSG_task_destroy(task);
*/
int main(int argc, char *argv[])
{
+#ifdef BENCH_THIS_CODE
xbt_os_timer_t timer = xbt_os_timer_new();
+#endif
- MSG_global_init(&argc, argv);
+ MSG_init(&argc, argv);
char **options = &argv[1];
const char* platform_file = options[0];
const char* application_file = options[1];
- MSG_set_channel_number(0);
MSG_create_environment(platform_file);
MSG_function_register("node", node);
MSG_launch_application(application_file);
+#ifdef BENCH_THIS_CODE
xbt_os_timer_start(timer);
- MSG_error_t res = MSG_main();
+#endif
+ msg_error_t res = MSG_main();
+#ifdef BENCH_THIS_CODE
xbt_os_timer_stop(timer);
+#endif
XBT_CRITICAL("Simulated time: %g", MSG_get_clock());
MSG_clean();
static void receive_results(result_t *results){
int node;
msg_comm_t comms[GRID_NUM_NODES-1] = {0};
- m_task_t tasks[GRID_NUM_NODES-1] = {0};
+ msg_task_t tasks[GRID_NUM_NODES-1] = {0};
XBT_VERB("Receive Results.");