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In my sequential code written in fortran, i have a subroutine to shuffle some vectors that works in this way:

    DO i=1,nsim

      IF(iflag(i) == 0)THEN

        j=j+1
        pos(j)=pos(i)
        v(j)=v(i)
        iflag(j)=iflag(i)

      END IF

    END DO
    nsim=j

I am a newbie OpenMP user so, i don't know how to write this loop in a correct way. Initially, i thought something like this:

!$omp parallel do reduction(+: j)
  DO i=1,nsim

  IF(iflag(i) == 0)THEN

    j=j+1
    pos(j)=pos(i)
    v(j)=v(i)
    iflag(j)=iflag(i)

  END IF

END DO
!$omp end parallel do
nsim=j

But i don't know if in this way, i can produce a race condition. Any suggestions on how to write this loop better? Thanks in advance

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1 Answer 1

up vote 1 down vote accepted

Parallelizing this kind of loop can be done by:

  1. Using a "prefix-sum" operation over a sequence of ones and zeros, where the sequence element is 1 if the THEN is taken, and 0 otherwise. The result of the prefix-sum tells you the values of j for each iteration.
  2. Do the THEN actions, with temporary arrays substituted for the left-hand sides, using the j values from step 1.
  3. Copying the temporary arrays back to the original arrays.

See discussion of parallel prefix-sum for details on implementing "prefix-sum". Step 2 can be embedded in the "Downsweep" phase of the prefix-sum (see other discussion). Because prefix-sum doubles bandwidth consumption (because it is a two-pass algorithm), getting speedup out of it is difficult.

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