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I am a newbie to OpenMP (I began using it today)

What is the difference between these two?

[A]

#pragma omp parallel
{ 
#pragma omp for
    for(1...100)
    {
    }
}

[B]

#pragma omp parallel for
for(1..100)
{
}

Thanks in advance!

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5 Answers 5

up vote 17 down vote accepted

I don't think there is any difference, one is a shortcut for the other. Although your exact implementation might deal with them differently.

"The combined parallel worksharing constructs are a shortcut for specifying a parallel construct containing one worksharing construct and no other statements. Permitted clauses are the union of the clauses allowed for the parallel and worksharing contructs."

Taken from http://www.openmp.org/mp-documents/OpenMP3.0-SummarySpec.pdf

The specs for OpenMP are here:

http://openmp.org/wp/openmp-specifications/

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These are equivalent.

#pragma omp parallel spawns a group of threads, while #pragma omp for divides loop iterations between the spawned threads. You can do both things at once with the fused #pragma omp parallel for directive.

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In my code I am using this very structure. However when I use schedule(static, chunk) clause in for directive, I get a problem. The code runs fine but when I am invoking this code from an MPI program then it runs into an infinite loop. The loop counter is zero in all iterations of this loop. I have the loop counter defined as private in the #pragma omp parallel directive. No idea why it only fails when MPI is invoking the code. I am somewhat sure that each MPI process is running on a different processor of the cluster if that matters. No idea if schedule is causing the problem. –  Rohit Banga Oct 3 '11 at 2:29
    
The same thing works fine when I use the #pragma omp parallel for directive. There ought to be some difference. –  Rohit Banga Oct 3 '11 at 2:30
    
Update: As it turns out, I am observing this problem only when I use the schedule clause so I guess it is not depending on whether I use the combined parallel for or two different directives. –  Rohit Banga Oct 3 '11 at 19:52

I am seeing starkly different runtimes when I take a for loop in g++ 4.7.0 and using

std::vector<double> x;
std::vector<double> y;
std::vector<double> prod;

for (int i = 0; i < 5000000; i++)
{
   double r1 = ((double)rand() / double(RAND_MAX)) * 5;
   double r2 = ((double)rand() / double(RAND_MAX)) * 5;
   x.push_back(r1);
   y.push_back(r2);
}

int sz = x.size();

#pragma omp parallel for

for (int i = 0; i< sz; i++)
   prod[i] = x[i] * y[i];

the serial code (no openmp ) runs in 79 ms. the "parallel for" code runs in 29 ms. If I omit the for and use #pragma omp parallel, the runtime shoots up to 179ms, which is slower than serial code. (the machine has hw concurrency of 8)

the code links to libgomp

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1  
i think it's because omp parallel executes loop in separate thread without dividing it into threads, so main thread is waiting for second thread finished. and time spends on synchronizing. –  Antigluk Oct 24 '12 at 15:38
2  
That is because without a #pragma omp for there is no multi-threaded sharing of the loop at all. But that wasn't the OPs case anyway, try again with an additional #pragma omp for inside the #pragm omp parallel and it should run similar (if not the same) like the #pragma omp parallel for version. –  Christian Rau Oct 14 '13 at 15:27

Here is example of using separated parallel and for here. In short it can be used for dynamic allocation of OpenMP thread-private arrays before executing for cycle in several threads. It is impossible to do the same initializing in parallel for case.

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[A] and [B] should be the same according to:

http://openmp.org/mp-documents/omp-hands-on-SC08.pdf

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