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Can you think of ways to achieve significant improvement on a traditional engine like id tech 3? By attempting to do it on the Audio Subsystem I noticed it inflicts a slow down rather than a speed up. I suspect it would need big chunks of data to be calculated in loops and only rarely communicate with the core.

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up vote 2 down vote accepted

I don't know anything about ioquake3 or id tech 3 but a fair bit about OpenMP so I'll fire the question right back to you.

OpenMP was, initially, developed to distribute loop iterations over large arrays across processors with access to shared memory. This is a requirement in a large fraction of scientific and engineering programs so it will be no surprise that OpenMP is much used for such programs.

More recently, with OpenMP 3.0, it has good facilities for director/worker task decomposition which extend its range of application. I don't have a lot of experience with these new features, but they look promising.

So the question for you is: how well does your computational core fit the model of computation that OpenMP supports ?

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Sounds like openMP is more for multiple processes, while a fast game will want multiple threads in the same process. – Mark Storer Nov 22 '10 at 17:39
@Mark Storer -- not really, OpenMP is almost always implemented as threads since most o/s work very hard to prevent separate processes sharing memory. It's the type of parallelism present in the computation which (dis)qualifies OpenMP. – High Performance Mark Nov 22 '10 at 17:44

OpenMP is very effective when operating on data that doesn't depend on other elements in loop. For example:

std::vector<int> big_vector(1000, 0);
for (int i = 0; i < big_vector.size(); ++i)
    big_vector[i] = i;

would optimize well with OpenMP, but

std::vector<int> big_vector(1000, 0);
for (int i = 1; i < big_vector.size(); ++i)
    big_vector[i] = i * (big_vector[i - 1] + i);

would not.

You can also play around with the OpenMP settings to see if they improve your results. For more information, http://www.amazon.com/Multi-Threaded-Engine-Design-Jonathan-Harbour/dp/1435454170 has a whole chapter on OpenMP (as well as boost, posix-threads, and Windows Threads).

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