Here is the task. Given 2 arrays of 3 columns by n rows, do load balance over number of processes. We are given a function, say called my_function () that originally in the serial code, does all the job (takes in the whole 2 arrays and does whatever calculations it needs to do). Here is an attempt at the solution (note, we are not guaranteed contiguous memory at all time, and sometimes it changes from contiguous to non contiguous without further notice).
if(id == 0) then do i=0,(np - 1) if(i /= 0) then start_1 = 1 + i*l_n end_1 = (i+1)*l_n start_2 = 1 + i*l_n end_2 = (i+1)*l_n new_array1 = old_array1(1:3,start_1:end_1) new_array2 = old_array2(1:3,start_2:end_2) call MPI_Send(new_array1,l_n*3, MPI_REAL, i, 0,MPI_COMM_WORLD, ierror) call MPI_Send(new_array2,l_n*3, MPI_REAL, i, 0,MPI_COMM_WORLD, ierror) CALL my_function(new_array1,new_array2,l_n,id,np) else new_array1 = old_array1(1:3,1:l_n) new_array2 = old_array2(1:3,1:l_n) CALL my_function(new_array1,new_array2,l_n,id,np) end if end do else call MPI_Recv(new_array1,3*l_n, MPI_REAL, 0, 0,MPI_COMM_WORLD, istatus, ierror) call MPI_Recv(new_array2,3*l_n, MPI_REAL, 0, 0,MPI_COMM_WORLD, istatus, ierror) end if
np: number of processes used,
l_n is basically
np guaranteed to divide each other evenly.
First, I am not sure what it should be passed to the
MPI_Recv, is that correct the way I did it? Second, main question is: am I doing the load balance correct?