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);
}
}
```