I am doing research on computational electromagnetics laboratory with supercomputers. Here, we are working with clusters to solve problems includes over 500M unknowns. At this point we have a problem with parallelizing all these calculations. Until now, we have been working with MPI to communicate among nodes, however, we are about to decide using OpenMP to enable communication between processors in a node in terms of benefits of OpenMP. Notwithstanding, we could not get any efficiency from openMP(probably because of the false coding). Actually the point is I don't know what is the wrong with the code I will give.
It tooks the same time with sequential pure code without any OpenMP directives. When I use 'top' command 8 processors was working with %100 performance during the paralllel section.
gfortran --version | head -1 GNU Fortran (GCC) 4.1.2 20080704 (Red Hat 4.1.2-46)
PROGRAM dotproduct USE omp_lib IMPLICIT none INTEGER ::h,m,i,TID,NTHREADS,j,ierr REAL :: start,end REAL, ALLOCATABLE, DIMENSION(:,:) :: a REAL, ALLOCATABLE, DIMENSION(:) :: x REAL, ALLOCATABLE, DIMENSION(:) :: b m= 20000 OPEN(UNIT=1,FILE='matrix20000.dat',STATUS='UNKNOWN') OPEN(UNIT=2,FILE='vector20000.dat',STATUS='UNKNOWN') ALLOCATE(a(m,m)) ALLOCATE(x(m)) ALLOCATE(b(m)) REWIND(1) REWIND(2) WRITE(*,*) ' Reading is just started' READ(1,*), a(:,:) READ(2,*), x(:) WRITE(*,*) ' Reading is over' WRITE(*,*) ' Calculating will be started after parallelization' !$OMP PARALLEL PRIVATE(i,TID,j),SHARED(NTHREADS,m,a,x,b) TID= omp_get_thread_num() IF(TID == 0) THEN NTHREADS = OMP_GET_NUM_THREADS() PRINT*, 'Starting matrix multiple example with', NTHREADS END IF CALL cpu_time(start) !$OMP DO DO i=1, m b(i)= 0 DO j=1, m b(i) = b(i)+ a(i,j)*x(j) END DO END DO !$OMP END DO !$OMP END PARALLEL CALL cpu_time(end) WRITE(*,*) end-start,' seconds' !DO i=1,m ! WRITE(*,*) b(i) !END DO DEALLOCATE(a) !----Deallocation DEALLOCATE(x) DEALLOCATE(b) END PROGRAM dotproduct