I need to fill 2D array (tmp[Ny][Nx]) while each cell of the array gets an integral (of some function) as a function of free parameters. Since I deal with a very large arrays (here I simplified my case), I need to use OpenMP parallelism in order to speed my calculations up. Here I use simple #pragma omp parallel for directive.

Without using "#pragma omp parallel for", the code executes perfectly. But adding the parallel directive, produces race conditions in the output.

I tried to cure it by making "private(i,j,par)", it did not help.

I am totally frustrated with this problem and cannot find the way out.

Please, help!

P.S. I use VS2008 Professional with OpenMP 2.0 and under WIndows 7 OS

Here is my code: (a short sample)

```
testfunc(const double* var, const double* par)
{
// here is some simple function to be integrated over
// var[0] and var[1] and two free parameters par[0] and par[1]
return ....
}
#define Nx 10000
#define Ny 10000
static double tmp[Ny][Nx];
int main()
{
double par[2]; // parameters
double xmin[]={0,0} // limits of 2D integration
double xmax[]={1,1};// limits of 2D integration
double val,Tol=1e-7,AbsTol=1e-7;
int i,j,NDim=2,NEval=1e5;
#pragma omp parallel for private(i,j,par,val)
for (i=0;i<Nx;i++)
{
for (j=0;j<Ny;j++)
{
par[0]=i;
par[1]=j*j;
adapt_integrate(testfunc,par, NDim, xmin, xmax,
NEval, Tol, AbsTol, &val, &err);
// adapt_integrate - receives my integrand, performs
// integration and returns a result through "val"
tmp[i][j] = val;
}
}
}
```

It produces race conditions at the output. I tried to avoid it by making all internal variables (`i`

,`j`

,`par`

and `val`

) private, but it doesn't help.

I'm very frustrated and need help.

Please!

Thank you in advance,

P.

P.S. Serial version (#threads=1) of this code runs properly.

**The problem Solved!**

I defined parameters of integration as global and used `#pragma omp threadprivate(parGlob)`

directive for them. Now it works like a charm. I've been thinking that `private()`

and `threadprivate()`

have the same meaning, just different ways of implementations, but they do not.

So, playing with these directives may give a correct answer. Another thing is that defining iterator `i`

inside the first `for`

loop gives additional 20%-30% speed up in performance. So, the fastest version of the code looks now as:

```
testfunc(const double* var, const double* par)
{
.......
}
#define Nx 10000
#define Ny 10000
static double tmp[Ny][Nx];
double parGlob[2]; //<- Here are they!!!
#pragma omp threadprivate(parGlob) // <-Magic directive!!!!
int main()
{
// Not here !!!! -> double par[2]; // parameters
double xmin[]={0,0} // limits of 2D integration
double xmax[]={1,1};// limits of 2D integration
double val,Tol=1e-7,AbsTol=1e-7;
int j,NDim=2,NEval=1e5;
#pragma omp parallel for private(j,val) // no `i` inside `private` clause
for (int i=0;i<Nx;i++)
{
for (j=0;j<Ny;j++)
{
parGlob[0]=i;
parGlob[1]=j*j;
adapt_integrate(testfunc,par, NDim, xmin, xmax,
NEval, Tol, AbsTol, &val, &err);
tmp[i][j] = val;
}
}
}
```

`err`

should be private, too, but I doubt that's the problem. Are you sure`adapt_integrate`

and`testfunc`

are theadsafe -- do they have static variables, for instance? – Jonathan Dursi Jan 25 '12 at 17:04