135 lines
3.5 KiB
C++
135 lines
3.5 KiB
C++
#include "mat_mul.h"
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#include <cstdio>
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#include <cstdlib>
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#include <mpi.h>
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#include "util.h"
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#include <immintrin.h>
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#define MASTER 0
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#define FROM_MASTER 1
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#define FROM_WORKER 2
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#define ITILESIZE (32)
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#define JTILESIZE (1024)
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#define KTILESIZE (1024)
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static float *A, *B, *C;
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static int M, N, K;
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static int num_threads;
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static int mpi_rank, mpi_world_size;
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MPI_Status status;
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MPI_Request request;
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int numworkers, source, dest, mtype, rows, averow, extra, offset, i, j, k;
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static int min(int x, int y) {
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return (x<y)? x: y;
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}
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static void mat_mul_omp() {
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// TODO: parallelize & optimize matrix multiplication
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// Use num_threads per node
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int is=0;
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int ie=rows;
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#pragma omp parallel for num_threads(num_threads) schedule(dynamic)
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for (int ii = is; ii < ie; ii += ITILESIZE) {
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for (int jj = 0; jj < N; jj += JTILESIZE) {
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for (int kk = 0; kk < K; kk += KTILESIZE) {
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for (k = kk; k < min(K, kk + KTILESIZE); k++) {
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for (i = ii; i < min(ie, ii + ITILESIZE); i++) {
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float ar = A[i * K + k];
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for (j = jj; j < min(N, jj+ JTILESIZE); j +=1) {
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C[i * N + j] += ar * B[k * N + j];
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}
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}
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}
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}
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}
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}
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}
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void mat_mul(float *_A, float *_B, float *_C, int _M, int _N, int _K,
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int _num_threads, int _mpi_rank, int _mpi_world_size) {
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A = _A, B = _B, C = _C;
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M = _M, N = _N, K = _K;
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num_threads = _num_threads, mpi_rank = _mpi_rank,
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mpi_world_size = _mpi_world_size;
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// TODO: parallelize & optimize matrix multiplication on multi-node
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// You must allocate & initialize A, B, C for non-root processes
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numworkers = mpi_world_size;
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if(numworkers ==0) {
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rows=M;
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mat_mul_omp();
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} else {
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if(mpi_rank == MASTER) {
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averow = M/numworkers;
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int s, e;
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extra = M%numworkers;
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offset =0;
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mtype=FROM_MASTER;
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for(dest=1;dest<numworkers;dest++){
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//rows=(dest+1<=extra) ? averow+1:averow;
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//offset = offset+rows;
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s=offset=dest*averow;
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e=dest==numworkers-1 ? M : (dest+1)*averow;
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rows=e-s;
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printf("sending %d rows to task %d offset =%d\n", rows, dest, offset);
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MPI_Isend(&offset, 1, MPI_INT, dest, mtype,MPI_COMM_WORLD,&request);
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MPI_Isend(&rows, 1, MPI_INT, dest, mtype,MPI_COMM_WORLD,&request);
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MPI_Isend(&A[offset*K], rows*K, MPI_FLOAT, dest, mtype,MPI_COMM_WORLD,&request);
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MPI_Isend(B, K*N, MPI_FLOAT, dest, mtype,MPI_COMM_WORLD,&request);
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}
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//rows= (extra > 0) ? averow+1:averow;
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rows=averow;
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mat_mul_omp();
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mtype=FROM_WORKER;
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for(i=1;i<numworkers;i++){
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source=i;
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MPI_Recv(&offset, 1, MPI_INT, source,mtype,MPI_COMM_WORLD,&status);
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MPI_Recv(&rows, 1, MPI_INT, source,mtype,MPI_COMM_WORLD,&status);
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MPI_Recv(&C[offset*N], rows*N, MPI_FLOAT, source, mtype,MPI_COMM_WORLD,&status);
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printf("Received result from task %d\n", source);
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}
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} //MASTER ==0;
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if(mpi_rank > MASTER) {
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alloc_mat(&A, M, K);
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alloc_mat(&B, K, N);
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alloc_mat(&C, M, N);
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zero_mat(C,M,N);
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mtype=FROM_MASTER;
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MPI_Recv(&offset, 1, MPI_INT, MASTER, mtype, MPI_COMM_WORLD,&status);
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MPI_Recv(&rows, 1, MPI_INT, MASTER, mtype, MPI_COMM_WORLD,&status);
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MPI_Recv(A, rows*K, MPI_FLOAT, MASTER, mtype, MPI_COMM_WORLD,&status);
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MPI_Recv(B, K*N, MPI_FLOAT, MASTER, mtype, MPI_COMM_WORLD,&status);
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mat_mul_omp();
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mtype = FROM_WORKER;
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MPI_Isend(&offset, 1, MPI_INT, MASTER, mtype, MPI_COMM_WORLD,&request);
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MPI_Isend(&rows, 1, MPI_INT, MASTER, mtype, MPI_COMM_WORLD,&request);
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MPI_Isend(C, rows*N, MPI_FLOAT, MASTER, mtype, MPI_COMM_WORLD,&request);
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}
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}
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}
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