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We are using OpenMP (libgomp) in order to speed up some calculations in a multithreaded Qt application. The parallel OpenMP sections are located within two different threads, though in fact they never execute in parallel. What we observe in this case is that 2N (where N = OMP_THREAD_LIMIT) omp threads are launched, apparently interfering each with the other. The calculation time is very high, while the processor load is low. Setting OMP_WAIT_POLICY hardly has any effect.

We also tried moving all the omp sections to a single thread (this is not a good solution for us, though, from an architectural point of view). In this case, the overall calculation time does drop and the processor is fully loaded, but only if OMP_WAIT_POLICY is set to ACTIVE. When OMP_WAIT_POLICY == PASSIVE, the calculation time remains low and the processor is idle 50% of time.

Odd enough, when we use omp within a single thread, the first loop parallelized using omp (in a series of omp calulations) executes 10 times slower compared to the multithread case.

Upd: Our questions are:

a) is there any way to reuse the openmp threads when using omp in the context of different threads.

b) Why executing with OMP_WAIT_POLICY == PASSIVE slows everything. Does it take so long to wake the threads?

c) Is there any logical explanation for the phenomenon of the first parallel block being so slow (even when waiting in active mode)

Upd2: Please mind that the issue is probably related to GNU OMP implementation. icc doesn't have it.

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And your question is ? –  High Performance Mark Dec 8 '10 at 15:00
    
Sorry, I updated the question –  Sergey Levi Dec 8 '10 at 15:09
    
+1. I recently considered using OpenMP in a library used by a Qt app. @Sergey: Which platform are you on? –  larsmans Dec 8 '10 at 19:16
    
@larsmans: We run on Linux and Windows. This phenomenon, however, has been studied only on Linux so long. –  Sergey Levi Dec 8 '10 at 21:06
    
The question is vague to answer it. What your OpenMP threads are doing? Are there any data sharing? Any locks? Could you briefly write a simple code? I don't think oversubscription (running 2N) would be a big problem, though. –  minjang Dec 10 '10 at 2:04

1 Answer 1

Try to start/stop openmp threads in runtime using omp_set_num_threads(1) and omp_set_num_threads(cpucount)

This call with (1) should stop all openmp worker threads, and call with (cpu_num) will restart them again.

So, at start of programm, run omp_set_num_threads(1). Before omp-parallelized region, you can start omp threads even with WAIT_POLICY=active, and they will not consume cpu before this point.

After omp parallel region you can stop threads again.

The omp_set_num_threads(cpucount) call is very slow, slower than waking threads with wait_policy=passive. This can be the reason for (c) - if your libgomp starts threads only at first parallel region.

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Sorry for the late reply. Please look at my comment above. omp_set_num_threads doesn't seem to have any affect in regard of this issue –  Sergey Levi Jan 19 '11 at 14:09
    
Ooops... I've sent the previous one by mistake. Sorry for the late reply. Please look at my comment above. omp_set_num_threads doesn't seem to have any effect in regard of this issue. It looks as if an OMP worker thread has ever been created, it affects the performance, no matter whether it sleeps forever or does some work. My guess is that GOMP performs some housekeeping, waking all the threads quite often. –  Sergey Levi Jan 19 '11 at 14:15
    
@Sergey Levi, waiting threads must be "docked": gomp_barrier_wait (&pool->threads_dock); in libgomp/team.c. It must sleep on futex. Also, you are right that set_num_threads don't affect the current team thread pool. –  osgx Feb 17 '11 at 16:47

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