Strange behaviour in OpenMP nested loop

In the following program I get different results (serial vs OpenMP), what is the reason? At the moment I can only think that perhaps the loop is too "large" for the threads and perhaps I should write it in some other way but I am not sure, any hints?

Compilation: g++-4.2 -fopenmp main.c functions.c -o main_elec_gcc.exe

    #include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <omp.h>
#include <math.h>

#define NRACK 64
#define NSTARS 1024

double mysumallatomic_serial(float rocks[NRACK][3],float moon[NSTARS][3],float qr[NRACK],float ql[NSTARS]) {
int j,i;
float temp_div=0.,temp_sqrt=0.;
float difx,dify,difz;
float mod2x, mod2y, mod2z;
double S2 = 0.;
for(j=0; j<NRACK; j++){
for(i=0; i<NSTARS;i++){
difx=rocks[j][0]-moon[i][0];
dify=rocks[j][1]-moon[i][1];
difz=rocks[j][2]-moon[i][2];
mod2x=difx*difx;
mod2y=dify*dify;
mod2z=difz*difz;
temp_sqrt=sqrt(mod2x+mod2y+mod2z);
temp_div=1/temp_sqrt;
S2 += ql[i]*temp_div*qr[j];
}
}
return S2;
}

double mysumallatomic(float rocks[NRACK][3],float moon[NSTARS][3],float qr[NRACK],float ql[NSTARS]) {
float temp_div=0.,temp_sqrt=0.;
float difx,dify,difz;
float mod2x, mod2y, mod2z;
double S2 = 0.;

#pragma omp parallel for shared(S2)
for(int j=0; j<NRACK; j++){
for(int i=0; i<NSTARS;i++){
difx=rocks[j][0]-moon[i][0];
dify=rocks[j][1]-moon[i][1];
difz=rocks[j][2]-moon[i][2];
mod2x=difx*difx;
mod2y=dify*dify;
mod2z=difz*difz;
temp_sqrt=sqrt(mod2x+mod2y+mod2z);
temp_div=1/temp_sqrt;
float myterm=ql[i]*temp_div*qr[j];
#pragma omp atomic
S2 += myterm;
}
}
return S2;

int main(int argc, char *argv[]) {
float rocks[NRACK][3], moon[NSTARS][3];
float qr[NRACK], ql[NSTARS];
int i,j;

for(j=0;j<NRACK;j++){
rocks[j][0]=j;
rocks[j][1]=j+1;
rocks[j][2]=j+2;
qr[j] = j*1e-4+1e-3;
//qr[j] = 1;
}

for(i=0;i<NSTARS;i++){
moon[i][0]=12000+i;
moon[i][1]=12000+i+1;
moon[i][2]=12000+i+2;
ql[i] = i*1e-3 +1e-2 ;
//ql[i] = 1 ;
}
printf(" serial: %f\n", mysumallatomic_serial(rocks,moon,qr,ql));
printf(" openmp: %f\n", mysumallatomic(rocks,moon,qr,ql));
return(0);

}
}

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I think you should use reduction instead of shared variable and remove #pragma omp atomic, like:

#pragma omp parallel for reduction(+:S2)


And it should work faster, because there are no need for atomic operations which are quite painful in terms of performance and threads synchronization.

UPDATE

You can also have some difference in results because of the operations order:

\sum_1^100(x[i]) != \sum_1^50(x[i]) + \sum_51^100(x[i])

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thanks, but I still get the same problem –  flow Jan 25 '11 at 17:00
Try to define your arrays as shared –  Elalfer Jan 25 '11 at 17:05
BTW, why did you copy your function? It should work fine if you compile it without openmp. And I think it is better to compare results for the same code with and without -fopenmp switch. –  Elalfer Jan 25 '11 at 17:09
and what is the difference in your results? –  Elalfer Jan 25 '11 at 17:10
the results tend to be around 5% different. BTW I do not understand what you mean with the summatoria: a + b + c + d = (a + b) + (c + d) –  flow Jan 25 '11 at 17:42

You have data races on most of the temporary variables you are using in the parallel region - difx, dify, difz, mod2x, mod2y, mod2z, temp_sqrt, and temp_div should all be private. You should make these variables private by using a private clause on the parallel for directive.

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As far as I remember all variables are private by default in C++ –  Elalfer Jan 25 '11 at 17:34
yes, now it works. But i also can see that I lose a lot of performance, openmp version is 0.5 times faster –  flow Jan 25 '11 at 17:40
@Werner because your loops are quite small. Could you update your code please? –  Elalfer Jan 25 '11 at 17:45
what do you mean with that "the loops are quite small"?. thanks –  flow Jan 26 '11 at 10:57
By default in OpenMP, most variables are shared. There are exceptions and they are listed, so you have to be careful. –  ejd Jan 26 '11 at 14:30