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I just added a omp pragma to parallel this for loop, but more threads make it more slowly. I tried schedules auto, guide, 10, static, 10.

One thread needs 4 min, 2 need 6 min, more threads are more slowly...

I'm not familiar with omp, so anyone help ...

This function is called often, so I print pairs.size(), sometimes it's 0, sometimes it's 498. I think it maybe that each iteration's work is so small that the threads operation cost too much time..

fl eval_pairs_deriv(const precalculate& p, fl v, const interacting_pairs& pairs,
                    const vecv& coords, vecv& forces) {

    const fl cutoff_sqr = p.cutoff_sqr();
    fl e = 0;

    #pragma omp parallel for reduction(+ : e) schedule(runtime)
    for (int i = 0; i < (pairs).size(); ++(i)) {
        const interacting_pair& ip = pairs[i];

        vec r;
        r = coords[ip.b] - coords[ip.a]; // a -> b
        fl r2 = sqr(r);
        // f1 tt=0;
        double tt = 0;
        if (r2 < cutoff_sqr) {
            pr tmp = p.eval_deriv(ip.type_pair_index, r2);
            vec force;
            force = tmp.second * r;
            curl(tmp.first, force, v);
            tt = tmp.first;
            forces[ip.a] -= force;
            forces[ip.b] += force;
        }
        e += tt;
    }

    return e;
}
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Welcome to StackOverflow! If you could clean up some of your grammar on this post, it might do better. It's kind of hard to understand at the moment. –  Mike Precup Jul 31 at 15:33
    
#pragma omp atomic forces[ip.a] -= force; error: Illegal operation in atomic expression –  user3145078 Jul 31 at 15:34
    
When learning OpenMP always specify the accessibility of variables (shared or private) in parallel sections. Don't rely on defaults. Specify the accessibility and understand what your code is doing inside the parallel sections. –  High Performance Mark Jul 31 at 15:34
    
I assume by the name that forces is a vector like (continuous memory) container if that is the case, you could have a case of false sharing (if pairs.size() is big enough), when a thread invalidate the cache line when updating forces[ip.a] -= force; and/or forces[ip.b] += force;, forcing to reload again the memory in the cache for all the thread accessing. –  NetVipeC Jul 31 at 16:11
    
There may not only be false sharing as pointed out by NetVipeC, but also a race condition on forces[] when your omp parallel code actually fails. Regarding the timing, you may well be correct in assuming that the work you're trying to share is too little to make it worthwhile given the overheads for generating & managing the parallel threads. You can find out by increasing pairs.size(). –  Walter Jul 31 at 16:18

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