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V1.c
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#include <stdio.h>
#include <stdlib.h>
#include <time.h>
#include <string.h>
#include "cblas.h"
#include <math.h>
#include <mpi.h>
void kNN(double *X, double *Y, int m, int d, int n, double *ndist, int *nidx, int k, int loop, int pnum);
void V1(double *Xbuffer, int m, int d, int k, int pid, int num_prcss);
void update(double *ndist, int *nidx, double elemD, int loc, int pos, int k);
int binary_Search (double a[], double item, int low, int high);
void insertion_Sort (double *a, int *b, int size);
struct timespec t0, t1;
struct knnresult
{
int *nidx; /* Indices (0-based) of nearest neighbors [m-by-k] */
double *ndist; /* Distance of nearest neighbors [m-by-k] */
int m; /* Number of query points [scalar] */
int k; /* Number of nearest neighbors [scalar] */
};
int main(int argc, char **argv){
int pnum, pid;
MPI_Init( &argc, &argv );
MPI_Comm_size(MPI_COMM_WORLD, &pnum);
MPI_Comm_rank(MPI_COMM_WORLD, &pid);
MPI_Status stat;
int m = atoi( argv[1] ),
d = atoi( argv[2] ),
k = atoi( argv[3] ),
err;
int chunk = m * d / pnum,
prcs_m = m / pnum;
double *Xbuffer = malloc(chunk * sizeof(double));
if(pid == 0)
{
double *X = (double *)malloc(m * d * sizeof(double));
for(int i = 0; i < m * d; i++) X[i] = ((double)(rand())) / ((double)(RAND_MAX));
for(int i = 0; i < chunk; i++) Xbuffer[i] = X[i];
for(int p = 1; p < pnum; p++)
MPI_Send(X+p*chunk, chunk, MPI_DOUBLE, p, 0, MPI_COMM_WORLD);
}
else MPI_Recv(Xbuffer, chunk, MPI_DOUBLE, 0, 0, MPI_COMM_WORLD, &stat);
V1(Xbuffer, m, d, k, pid, pnum);
MPI_Finalize();
return 0;
}
/* Calculates the distributed KNN across MPI processes */
void V1(double *Xbuffer, int m, int d, int k, int pid, int num_prcss)
{
int loop,
err=0,
xchunk = m * d / num_prcss,
prcs_m = m / num_prcss;
MPI_Status recvstat;
MPI_Request req, req2;
int f1=0, f2=0;
struct knnresult knn;
knn.ndist = (double *)malloc((prcs_m * k) * sizeof(double));
knn.nidx = (int *)malloc((prcs_m * k) * sizeof(int ));
double *D = (double *)malloc(prcs_m * prcs_m * sizeof(double)),
*Ybuffer = malloc((xchunk+1) * sizeof(double));
for(int a = 0; a < xchunk; a++) Ybuffer[a] = Xbuffer[a];
clock_gettime(CLOCK_REALTIME, &t0);
/* Calculate and update k-NN, Send, Receive */
for(loop = 0; loop < num_prcss; loop++)
{
kNN(Xbuffer, Ybuffer, prcs_m, d, prcs_m, knn.ndist, knn.nidx, k, loop, num_prcss);
if(pid != num_prcss - 1)
MPI_Isend(Ybuffer, xchunk, MPI_DOUBLE, pid+1, pid, MPI_COMM_WORLD, &req);
else MPI_Isend(Ybuffer, xchunk, MPI_DOUBLE, 0, pid, MPI_COMM_WORLD, &req);
if(pid != 0)
MPI_Recv(Ybuffer, xchunk, MPI_DOUBLE, pid-1, pid-1, MPI_COMM_WORLD, &recvstat);
if(pid == 0)
MPI_Recv(Ybuffer, xchunk, MPI_DOUBLE, num_prcss-1, num_prcss-1, MPI_COMM_WORLD, &recvstat);
}
clock_gettime(CLOCK_REALTIME, &t1);
double duration = ((t1.tv_sec-t0.tv_sec)*1000000+(t1.tv_nsec-t0.tv_nsec)/1000)/1000000.0;
printf("~ Duration: %f sec\n", duration);
}
void update(double *ndist, int *nidx, double elemD, int loc, int pos, int k){
if(loc == k - 1)
{
ndist[loc] = elemD;
nidx [loc] = pos;
}
else if(loc < k - 1)
{
for(int z = k - 1; z > loc; z--)
{
ndist[z] = ndist[z-1];
nidx [z] = nidx [z-1];
}
ndist[loc] = elemD;
nidx [loc] = pos;
}
}
/* Calculates distance and saves the kNN */
void kNN(double *X, double *Y, int m, int d, int n, double *ndist, int *nidx, int k, int loop, int pnum){
int loc, offst, cnt, pos;
double *D = (double *)malloc(m * n * sizeof(double)),
*sumx = malloc(m*d * sizeof(double)),
*sumy = malloc(n*d * sizeof(double)),
elemD;
for(int i = 0; i < m; i++) sumx[i] = cblas_ddot(d, X+i*d, 1, X+i*d, 1);
for(int j = 0; j < n; j++) sumy[j] = cblas_ddot(d, Y+j*d, 1, Y+j*d, 1);
cblas_dgemm(CblasRowMajor, CblasNoTrans, CblasTrans, m, n, d, -2, X, d, Y, d, 0, D, n);
for(int i = 0; i < m; i++)
{
cnt = 0;
offst = i * k;
for(int j = 0; j < n; j++)
{
D[j+i*n] += sumx[i] + sumy[j];
elemD = sqrt(fabs( D[j+i*n] ));
pos = j;
if(loop == 0)
{
if(cnt < k)
{
ndist[offst + cnt] = elemD;
nidx [offst + cnt] = pos;
if(cnt == k - 1) insertion_Sort(ndist + offst, nidx + offst, k);
cnt++;
}
else
{
loc = binary_Search(ndist + offst, elemD, 0, k);
update(ndist + offst, nidx + offst, elemD, loc, pos, k);
}
}
else
{
loc = binary_Search(ndist + offst, elemD, 0, k);
update(ndist + offst, nidx + offst, elemD, loc, pos, k);
}
}
}
}
/* Binary search */
int binary_Search(double a[], double item, int low, int high){
if (high <= low)
return (item > a[low])? (low + 1): low;
int mid = (low + high)/2;
if(item == a[mid])
return mid+1;
if(item > a[mid])
return binary_Search(a, item, mid+1, high);
return binary_Search(a, item, low, mid-1);
}
/* Binary insertion sort */
void insertion_Sort(double *a, int *b, int size)
{
int i, loc, j, k;
double selected;
for (i = 0; i < size; i++)
{
j = i - 1;
selected = a[i];
loc = binary_Search(a, selected, 0, j);
while (j >= loc)
{
a[j+1] = a[j];
b[j+1] = b[j];
j--;
}
a[j+1] = selected;
b[j+1] = i;
}
}