This is a long post -- a lot of background before the question. The quick version is that I've tried to use OpenMP on elements of a linked list -- using OpenMP tasks in a way I've seen prescribed elsewhere, but that leads to a significant slowdown. However, I can get a significant speedup if I divide things up differently, but I'm wondering if there's a way to get the first way to work, since it's cleaner/simpler and (I think) it dynamically balances work across the threads.
I've got a reasonably long linked list (can be a couple million elements) of Fortran types (C structures) and -- several times -- I've got to iterate over the list and operate on each of the elements. So, I've got a subroutine (eachPhonon) that takes a subroutine as an argument (srt) and operates that on each element of the list:
subroutine eachPhonon(srt) external :: srt type(phonon), pointer :: tptr tptr => head do while(associated(tptr)) call srt(tptr) tptr => tptr%next enddo endsubroutine
It seems like this is a good place for a parallel speedup, since each call of srt can be done independently of the others. This would be very simple using openmp if I had a Fortran do (C for) loop. However, I've seen a method for how to do it using a linked list, both on stackoverflow and from intel. Basically, it makes each call to srt it's own task -- something like:
subroutine eachPhonon(srt) external :: srt type(phonon), pointer :: tptr tptr => head !$OMP PARALLEL !$OMP SINGLE do while(associated(tptr)) !$OMP TASK FIRSTPRIVATE(tptr) call srt(tptr) !$OMP END TASK tptr => tptr%next enddo !$OMP END SINGLE !$OMP END PARALLEL endsubroutine
This seems to work, but it's significantly slower than using just one thread.
I rewrote things so that given, say, 4 threads, one thread would operate on elements 1,5,9..., another on elements 2,6,10..., etc.:
subroutine everyNth(srt, tp, n) external :: srt type(phonon), pointer :: tp integer :: n, j do while(associated(tp)) call srt(tp) do j=1,n if(associated(tp)) tp => tp%next enddo enddo endsubroutine subroutine eachPhononParallel(srt) use omp_lib external :: srt type(phonon), pointer :: tp integer :: j, nthreads !$OMP PARALLEL !$OMP SINGLE nthreads = OMP_GET_NUM_THREADS() tp => head do j=1,nthreads !$OMP TASK FIRSTPRIVATE(tp) call everyNth(srt, tp, nthreads) !$OMP END TASK tp => tp%next enddo !$OMP END SINGLE !$OMP END PARALLEL endsubroutine
This can lead to a significant speedup.
Is there a way to make the first method efficient?
I'm new to parallel processing, but my reading is that the first method has too much overhead since it tries to make a task for each element. The second way only makes one task for each thread and avoids that overhead. The downside is somewhat less clean code that can't be compiled without openmp, and it won't dynamically balance work across the threads -- it's all statically assigned at the beginning.