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I am trying to use Intel TBB to parallelise an inner loop (the 2nd of 3) however, i only get decent pay off when the inner 2 loops are significant in size.

Is TBB spawning new threads for every iteration of the major loop? Is there anyway to reduce the overhead?

tbb::task_scheduler_init tbb_init(4); //I have 4 cores
tbb::blocked_range<size_t> blk_rng(0, crs_.y_sz, crs_.y_sz/4);
boost::chrono::system_clock::time_point start   =boost::chrono::system_clock::now();
for(unsigned i=0; i!=5000; ++i)
    [&](const tbb::blocked_range<size_t>& br)->void

It might be interesting to note that openMP (which I am trying to remove!!!) doesn't have this problem.

I am compiling with:

intel ICC 12.1 at -03 -xHost -mavx

On a intel 2500k (4 cores)

EDIT: I can really change the order of loops, because the out loops test need to be replace with a predicate based on the loops result.

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It appears you're asking it to spawn a parallel piece of work 5000 times, is that accurate? – user7116 Feb 15 '12 at 19:30
@sixlettervariables yes, I get great gains with openMP, I want to know whether I can replicate such gains with TBB – 111111 Feb 15 '12 at 19:58
try using the partitioners in tbb, particularly the affinity_partiioner if you haven't. OpenMP fixed partitioning is really good at small inner loops because of the policies it applies to thread teams... – Rick Feb 15 '12 at 22:15
@Rick I have take a look a partitioner, TBH they rarely show an improvement over setting the blocked_ranges step to size/num_threads – 111111 Feb 15 '12 at 23:06

1 Answer 1

No, TBB does not spawn new threads for every invocation of parallel_for. Actually, unlike OpenMP parallel regions that each may start a new thread team, TBB work with the same thread team until all task_scheduler_init objects are destroyed; and in case of implicit initialization (with task_scheduler_init omitted), same worker threads are used till the end of the program.

So the performance issue is caused by something else. The most likely reasons, from my experience, are:

  • lack of compiler optimizations, auto-vectorization being first (can be checked by comparing single-threaded performance of OpenMP and TBB; if TBB is much slower, then this is the most likely reason).
  • cache misses; if you 5000 times run through the same data, cache locality has huge importance, and OpenMP's default schedule(static) works very well, deterministically repeating exactly the same partitioning each time, while TBB's work stealing scheduler has significant randomness. Setting the blocked_range grain size equal to problem_size/num_threads ensures one piece of work per thread but does not guarantee the same distribution of pieces; and affinity_partitioner is supposed to help with that.
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