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I have seen an algorithm for parallel merge-sort in a this paper. This is the code:

void mergesort_parallel_omp (int a[], int size, int temp[], int threads) 
{  
    if ( threads == 1)       { mergesort_serial(a, size, temp); }
    else if (threads > 1) 
    {
         #pragma omp parallel sections
         {
          #pragma omp section
             mergesort_parallel_omp(a, size/2, temp, threads/2);
          #pragma omp section
             mergesort_parallel_omp(a + size/2, size - size/2, temp + size/2, threads - threads/2);
         }
merge(a, size, temp); 
    } // threads > 1
}

I run it on a multicore. What happens is that at the leafs of the tree, 2 threads run in parallel. After they finished their work 2 other threads start and so on. Even if we have free cores for all the leaf nodes.

I think the reason is this OpenMP code does not create parallel regions inside parallel regions. Am I correct?

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2 Answers 2

up vote 5 down vote accepted

"I think the reason is that OpenMP cannot create parallel regions inside parallel regions"

You can have parallel region of parallel region.

OpenMP parallel regions can be nested inside each other. If nested parallelism is disabled, then the new team created by a thread encountering a parallel construct inside a parallel region consists only of the encountering thread. If nested parallelism is enabled, then the new team may consist of more than one thread (source).

In order to run your code correctly, you need to call omp_set_nested(1) and omp_set_num_threads(2).

Nested parallelism can be enabled or disabled by setting the OMP_NESTED environment variable or calling omp_set_nested() function

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Thanks a lot for the answer. I solved the problem. However, I don't understand why I need to add the "omp_set_num_threads(2)" part. I mean, why should it be added as well? –  TOWI_Parallelism Dec 11 '12 at 13:32
    
@TOWI_Parallelism Np, you welcome. Seeing this algorithm I would run with variable threads (the variable that you pass to your mergesort_parallel_omp function) equal to the num_of_cores (e.g. 2,4,8,16) and I would force each parallel region to only create two thread each time one for each section (omp_set_num_threads(2)). Nevertheless, theres maybe a more efficient way. –  dreamcrash Dec 11 '12 at 13:45
    
At the first level thread master will create another thread, one thread will execute the first recursion call and one will execute the second call. Then each thread will create (second level) one more thread, and each thread will stay with a recursion call, this goes one until threads == 1 –  dreamcrash Dec 11 '12 at 16:13
    
@dreamcrach: Thanks. I know how it works. My question is about the merge function. Imagine that we are in the 2nd level. So, we have 2 master threads and 4 workers that are working at leafs. When a group of 2 finish their work, they are needed to be merged. Do those master threads who are responsible for merging start to work concurrently? I mean, does the merge function utilise the parallelism as well? –  TOWI_Parallelism Dec 11 '12 at 17:43
1  
@TOWI_Parallelism yep, in the end each master of every team will execute the merge(a, size, temp); –  dreamcrash Dec 11 '12 at 17:51

Maybe I am totally missing the point here... but are you aware that you need to set the environment variable OMP_NUM_THREADS if you want to execute on more than 2 threads?

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1  
I think there is no need to do that. omp_set_num_threads(2) lets you have 2 threads inside each nested region and it can grow up to any desired number based on the parameter "threads" you first pass to the function. –  TOWI_Parallelism Apr 12 '13 at 14:15

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