Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I am trying to apply openmp to parallize the following snippet as shown below. However, the paralleled code turns out to be running slower than serial one without the openmp derivatives. I am running on 64 linux platform and compile with gfortran. You comments and suggestions about how to do it properly are appreciated!

        call omp_set_num_threads(4)

    do i = 2, natoms - 1

          rti(1:3) = R_for(i,1:3)
          fti(1:3) = ftmp(i,1:3)

    !$OMP& private(rtij,rsqij,rsqijinv,sr2,sr6,sr12,vij,wij,fij,ftij,ncut)&
    !$OMP& REDUCTION(+:vtmp,wtmp,ftmp,fti) &
    !$OMP& firstprivate(i,rti,R_for)

    do j = i + 1, natoms
        rtij = rti - R_for(j,1:3)
        rtij = rtij - boxl*idnint( rtij*boxlinv )
        rsqij = sum(rtij**2)

                if(rsqij.lt.rcutsq) then
                   rsqijinv = 1d0/rsqij
                   sr2 = sigsq*rsqijinv
                   sr6 = sr2*sr2*sr2
                   sr12 = sr6*sr6
                   vij = sr12 - sr6
                   vtmp = vtmp + vij
                   wij = vij + sr12
                   wtmp = wtmp + wij
                   fij = wij*rsqijinv

                   ftij = fij*rtij
                   fti = fti + ftij
                   ftmp(j,1:3) = ftmp(j,1:3) - ftij(1:3)
                   ncut = ncut + 1

        ftmp(i,1:3) = fti(1:3) 
share|improve this question
It costs to set up the "thread" for parallelisation, so if it ain't doing much or they are blocking to access a common resource, then it won't be faster, in fact it could be much slower. Tidy up your code, make it the parallel one, and some vague clues as to what its doing would be good. –  Tony Hopkinson Oct 15 '13 at 21:51
I have removed the comments and tidy up the code. I am mostly wondering on two things: 1. whether there are unseen dependency in the paralleled loop that i do not spot. 2. any other way to improve it –  user1509376 Oct 15 '13 at 22:03

1 Answer 1

As mentioned by Tony Hopkinson, thread creation introduces some overhead, thus you should move the parallel region out of the outer loop and put the assignment of shared variables into a workshare or single construct.

Then, instead of the reduction clause you could use arrays with the length of the number of threads to store thread local partial sums and do the reduction only after the loop completed vtmp and wtmp for example seem nowhere to be used, and could be reduced even after the outer loop. Due to the if condition it looks like your loop might be heavily unbalanced from iteration to iteration, and it might be beneficial to use some dynamic scheduling.

share|improve this answer

Your Answer


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.