I need some help to parallelize the pi calculation with the monte carlo method with openmp by a given random number generator, which is not thread safe.

First: This SO thread didn't help me.

My own try is the following #pragma omp statements. I thought the i, x and y vars should be init by each thread and should than be private. z ist the sum of all hits in the circle, so it should be summed after the implied barriere after the for loop.

Think the main problem ist the static state var of the random number generator. I made a critical section where the functions are called, so that only one thread per time could execute it. But the Pi solutions doesn't scale with more higher values.

Note: I should not use another RNG, but its okay to make little changes on it.

```
int main (int argc, char *argv[]) {
int i, z = 0, threads = 8, iters = 100000;
double x,y, pi;
#pragma omp parallel firstprivate(i,x,y) reduction(+:z) num_threads(threads)
for (i=0; i<iters; ++i) {
#pragma omp critical
{
x = rng_doub(1.0);
y = rng_doub(1.0);
}
if ((x*x+y*y) <= 1.0)
z++;
}
pi = ((double) z / (double) (iters*threads))*4.0;
printf("Pi: %lf\n", pi);;
return 0;
}
```

This RNG is actually an included file, but as I'm not sure if I create the header file correct, I integrated it in the other program file, so I have only one .c file.

```
#define RNG_MOD 741025
int rng_int(void) {
static int state = 0;
return (state = (1366 * state + 150889) % RNG_MOD);
}
double rng_doub(double range) {
return ((double) rng_int()) / (double) ((RNG_MOD - 1)/range);
}
```

I've also tried to make the static int state global, but it doesn't change my result, maybe I done it wrong. So please could you help me make the correct changes? Thank you very much!

"But the Pi solutions doesn't scale with more higher values."Apart from the fact that the critical section serialises your threads and you won't get any speed-up, the code looks correct to me. – Hristo Iliev Dec 8 '13 at 14:15`threadprivate`

. See my semi answer below for an explanation why it won't improve the solution a lot. – Hristo Iliev Dec 9 '13 at 5:31