+++ /dev/null
-/*!
- * Classical Block Matrix Multiplication example
- *
- */
-
-#include "Matrix_init.h"
-#include "Summa.h"
-#include "xbt/log.h"
- XBT_LOG_NEW_DEFAULT_CATEGORY(MM_Summa,
- "Messages specific for this msg example");
-
-inline double Summa(
- double *a, double *b, double *c,
- size_t lda, size_t ldb, size_t ldc,
- size_t m, size_t k_a, size_t k_b, size_t n,
- size_t Block_size, size_t start, size_t end,
- size_t row, size_t col, size_t size_row, size_t size_col,
- double *a_local, double *b_local,
- MPI_Datatype Block_a, MPI_Datatype Block_a_local,
- MPI_Datatype Block_b,
- MPI_Comm row_comm, MPI_Comm col_comm, int subs)
-{
- double *B_a , *B_b ; //matrix blocks
- size_t err;
- //double alpha = 1, beta = 1; //C := alpha * a * b + beta * c
- size_t B_proc_col, B_proc_row; // Number of bloc(row or col) on one processor
- B_proc_col = k_b / Block_size; // Number of block on one processor
- B_proc_row = k_a / Block_size; // Number of block on one processor
-
- //size_t lda = k_a, ldb = n, ldc = n;
- size_t lda_local = lda;
- size_t ldb_local = ldb;
-
-
- double time, computation_time = 0, communication_time = 0;
- double start_time, end_time; //time mesure
- double start_time_intern, end_time_intern; //time mesure
-
-
-
-
- start_time = MPI_Wtime();
-
- /*-------------Distributed Matrix Multiplication algorithm-----------------*/
- size_t iter;
- for( iter = start; iter < end; iter++ ){
- size_t pivot_row, pivot_col, pos_a, pos_b;
-#ifdef CYCLIC
- // pivot row on processor layer
- pivot_row = (iter % size_col);
- pivot_col = (iter % size_row);
- //position of the block
- if(subs == 1){
- pos_a = (size_t)((iter - start) / size_row) * Block_size;
- pos_b = (size_t)((iter - start) / size_col) * ldb * Block_size;
- }else{
- pos_a = (size_t)(iter / size_row) * Block_size;
- pos_b = (size_t)(iter / size_col) * ldb * Block_size;
- }
-#else
- // pivot row on processor layer
- pivot_row = (size_t)(iter / B_proc_col) % size_col;
- pivot_col = (size_t)(iter / B_proc_row) % size_row;
- //position of the block
- if(subs == 1){
- pos_a = ((iter - start) % B_proc_row) * Block_size;
- pos_b = ((iter - start) % B_proc_col) * ldb * Block_size;
- }else{
- pos_a = (iter % B_proc_row) * Block_size;
- pos_b = (iter % B_proc_col) * ldb * Block_size;
- }
-#endif
- XBT_DEBUG( "pivot: %zu, iter: %zu, B_proc_col: %zu, "
- "size_col:%zu, size_row: %zu\n",
- pivot_row, iter, B_proc_row,size_col,size_row);
- MPI_Barrier(row_comm);
- MPI_Barrier(col_comm);
-
- start_time_intern = MPI_Wtime();
- //Broadcast the row
- if(size_row > 1){
- MPI_Datatype * Block;
- if( pivot_col != col ){
- B_a = a_local;
- lda_local = Block_size;
- XBT_DEBUG("recieve B_a %zu,%zu \n",m , Block_size);
- Block = &Block_a_local;
- }else{
- B_a = a + pos_a;
- lda_local = lda;
- XBT_DEBUG("sent B_a %zu,%zu \n",m , Block_size);
- Block = &Block_a;
- }
- err = MPI_Bcast(B_a, 1, *Block, pivot_col, row_comm);
- if (err != MPI_SUCCESS) {
- perror("Error Bcast A\n");
- return -1;
- }
- }else{
- B_a = a + pos_a;
- XBT_DEBUG("position of B_a: %zu \n", pos_a);
- }
-
- //Broadcast the col
- if(size_col > 1){
- if( pivot_row == row ){
- B_b = b + pos_b;
- XBT_DEBUG("sent B_b Block_size: %zu, pos:%zu \n",
- ldb, pos_b);
- }else{
- B_b = b_local;
- XBT_DEBUG("recieve B_b %zu,%zu \n", Block_size,n);
- }
- err = MPI_Bcast(B_b, 1, Block_b, pivot_row, col_comm );
- if (err != MPI_SUCCESS) {
- perror("Error Bcast B\n");
- MPI_Finalize();
- exit(-1);
- }
- }else{
- B_b = b + pos_b;
- XBT_DEBUG("position of B_b: %zu \n", pos_b);
- }
- end_time_intern = MPI_Wtime();
- communication_time += start_time_intern - end_time_intern;
-
- MPI_Barrier(row_comm);
- MPI_Barrier(col_comm);
- start_time_intern = MPI_Wtime();
- XBT_DEBUG("execute Gemm number: %zu\n", iter);
- //We have recieved a line of block and a colomn
- // cblas_dgemm( CblasRowMajor, CblasNoTrans, CblasNoTrans,
- // m, n, Block_size, alpha, B_a, lda_local, B_b, ldb_local,
- // beta, c, ldc );
- int i, j, k;
- for(i = 0; i < m; i++)
- for(j = 0; j < n; j++)
- for(k = 0; k < Block_size; k++)
- c[i*ldc+j] += B_a[i*lda_local+k]*B_b[k*ldb_local+j];
-
- end_time_intern = MPI_Wtime();
- computation_time += start_time_intern - end_time_intern;
-
- }
- MPI_Barrier(row_comm);
- MPI_Barrier(col_comm);
-
- end_time = MPI_Wtime();
- time = start_time - end_time;
- printf("communication time: %le nanoseconds, "
- "computation time: %le nanoseconds\n",
- communication_time, computation_time);
-
-
- return time;
-}