Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to parallelize the loop in the following function with OpenMP

 void CEnergymulti::forcetwobody(vector<CMolecule*>  m_mols,CPnt force0,CPnt torque0)
{
 const int nmol=m_mols.size();
 vector<CMolecule*> twomols(2);
 CPnt forcetemp,torquetemp;
 twomols.clear();
 force0.zero();
 torque0.zero();
 forcetemp.zero();
 torquetemp.zero();
 #pragma omp parallel for reduction(+:force0,torque0) private(twomols)
 for(int j=1;j<nmol;j++)
       { twomols.push_back(m_mols[0]);
         twomols.push_back(m_mols[j]);
         CMolecule::polarize_mutual(twomols,false, 1000);
         twomols[0]->computeMol_Force_and_Torque(forcetemp,torquetemp);
         force0+=forcetemp;
         torque0+=torquetemp;
         forcetemp.zero();
         torquetemp.zero();
         twomols.clear();
        }
     REAL converter=COUL_K*IKbT;
     force0*=converter;
     torque0*=converter;
     return;
     }

When I compile the code, it gives the following message:

EnergyD_multi.cpp: In static member function ‘static void
CEnergymulti::forcetwobody(std::vector<CMolecule*,
std::allocator<CMolecule*> >, CPnt, CPnt)’: EnergyD_multi.cpp:226:
error: ‘torque0’ has invalid type for ‘reduction’
EnergyD_multi.cpp:226: error: ‘force0’ has invalid type for
‘reduction’

I understand that variables 'force0' and 'torque0' are neither double or integer type of data, but of type 'CPnt', a class that is defined to represent three-dimensional vectors in space. For class 'CPnt', operator '+' and '-' have already been defined by operator overloading. So my questions is: is it true that reduction in OpenMP cannot handle such overloaded operators? Is there any alternate ways to parallelize this loop with OpenMP without doing reduction on each component of 'force0' and 'torque0'?

Thanks a lot.

share|improve this question
    
Did you get this working? I changed your code to do the overload operation with OpenMP. Let me know if it works. Please see the link to understand the main idea in case there is a bug. –  user2088790 Apr 25 '13 at 19:32
    
Thanks a lot @raxman. With the parallelization scheme you suggested the code could be compiled. However, I'm still a bit confused about the parallelization of the loop with nowait. This is because I still believe that for every thread the variables in the loop 'twomols' and 'forcetemp' should be considered as 'private', but you didn't list them as private. –  user2226358 Apr 26 '13 at 6:35
    
Everything inside "#pragma omp parallel" is private by definition. Only force0 and torque0 are shared because they are outside of the omp pragma –  user2088790 Apr 26 '13 at 6:40
    
If you like my answer feel free to give me an up vote. If you think it's the best answer then select it as the best answer. –  user2088790 Apr 26 '13 at 6:41
    
@raxman. Actually even if I could compile the code based on your modification, when I ran the code I still got segmentation fault that leads to core dump. However, if I add twomols' and 'forcetemp' as private the code could run smoothly, though the result is still different from that of a serial code. It might be something wrong with certain function called in my code, but do you think it's necessary to have 'private' variables when 'nowait' is used? Thanks. –  user2226358 Apr 26 '13 at 6:45

1 Answer 1

It's true that OpenMP reduction can't handle such overloaded operators. However, there is an alternative. One way to rewrite a reduction in OpenMP is to use the nowait and atomic paramters. http://bisqwit.iki.fi/story/howto/openmp/#ReductionClause .This is just as fast as the normal way.

If you replace atomic with critical you can use more complex overloaded operators. This is not as fast as using atomic but it's still works well in my experience.

I did this so I could use operators that operate on 4 or 8 floats at once (with SEE or AVX). reduction with OpenMP with SSE/AVX

Edit: I changed your code to reflect what I think would do what you want.

void CEnergymulti::forcetwobody(vector<CMolecule*>  m_mols,CPnt force0,CPnt torque0)
{
    const int nmol=m_mols.size();
    force0.zero();
    torque0.zero();
    #pragma omp parallel
    {
        CPnt force0_private;
        CPnt torque0_private; 
        force0_private.clear();
        torque0_private.clear();
        #pragma omp for nowait
        for(int j=1;j<nmol;j++)
        { 
            CPnt forcetemp,torquetemp;
            forcetemp.zero();
            torquetemp.zero();
            vector<CMolecule*> twomols(2);
            twomols.clear();
            twomols.push_back(m_mols[0]);
            twomols.push_back(m_mols[j]);
            CMolecule::polarize_mutual(twomols,false, 1000);
            twomols[0]->computeMol_Force_and_Torque(forcetemp,torquetemp);
            force0_private+=forcetemp;
            torque0_private+=torquetemp;
        }
        #pragma omp critical 
        {
           force0 += force0_private;
           torque0 += torque0_private;
        }

    }
    REAL converter=COUL_K*IKbT;
    force0*=converter;
    torque0*=converter;
    return;
}
share|improve this answer
    
I think the second pragma (i.e. #pragma omp parallel for nowait) should be #pragma omp for nowait, i.e. without the parallel (The parallel construct has already been setup outside it). My compiler complains that you cannot have a nowait alongside a parallel for, as there is supposed to be an implicit barrier after the parallel for. Seems like nowait and parallel for are conflicting directives. –  Varun Gulshan Aug 22 '13 at 23:02
    
@VarunGulshan, you're correct, it should be #pragma omp for nowait. I just fixed it. –  Z boson Aug 4 at 7:32

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.