We have a large Fortran/MPI code-base which makes use of system-V shared memory segments on a node. We run on fat nodes with 32 processors, but only 2 or 4 NICs, and relatively little memory per CPU; so the idea is that we set up a shared memory segment, on which each CPU performs its calculation (in its block of the SMP array). MPI is then used to handle inter-node communications, but only on the master in the SMP group. The procedure is double-buffered, and has worked nicely for us.
The problem came when we decided to switch to asynchronous comms, for a bit of latency hiding. Since only a couple of CPUs on the node communicate over MPI, but all of the CPUs see the received array (via shared memory), a CPU doesn't know when the communicating CPU has finished, unless we enact some kind of barrier, and then why do asynchronous comms?
The ideal, hypothetical solution would be to put the request tags in an SMP segment and run mpi_request_get_status on the CPU which needs to know. Of course, the request tag is only registered on the communicating CPU, so it doesn't work! Another proposed possibility was to branch a thread off on the communicating thread and use it to run mpi_request_get_status in a loop, with the flag argument in a shared memory segment, so all the other images can see. Unfortunately, that's not an option either, since we are constrained not to use threading libraries.
The only viable option we've come up with seems to work, but feels like a dirty hack. We put an impossible value in the upper-bound address of the receive buffer, that way once the mpi_irecv has completed, the value has changed and hence every CPU knows when it can safely use the buffer. Is that ok? It seems that it would only work reliably if the MPI implementation can be guaranteed to transfer data consecutively. That almost sounds convincing, since we've written this thing in Fortran and so our arrays are contiguous; I would imagine that the access would be also.
Here's a pseudo-code template of the kind of thing I'm doing. Haven't got the code as a reference at home, so I hope I haven't forgotten anything crucial, but I'll make sure when I'm back to the office...
pseudo(array_arg1(:,:), array_arg2(:,:)...) integer, parameter : num_buffers=2 Complex64bit, smp : buffer(:,:,num_buffers) integer : prev_node, next_node integer : send_tag(num_buffers), recv_tag(num_buffers) integer : current, next integer : num_nodes boolean : do_comms boolean, smp : safe(num_buffers) boolean, smp : calc_complete(num_cores_on_node,num_buffers) allocate_arrays(...) work_out_neighbours(prev_node,next_node) am_i_a_slave(do_comms) setup_ipc(buffer,...) setup_ipc(safe,...) setup_ipc(calc_complete,...) current = 1 next = mod(current,num_buffers)+1 safe=true calc_complete=false work_out_num_nodes_in_ring(num_nodes) do i=1,num_nodes if(do_comms) check_all_tags_and_set_safe_flags(send_tag, recv_tag, safe) # just in case anything else has finished. check_tags_and_wait_if_need_be(current, send_tag, recv_tag) safe(current)=true else wait_until_true(safe(current)) end if calc_complete(my_rank,current)=false calc_complete(my_rank,current)=calculate_stuff(array_arg1,array_arg2..., buffer(current), bounds_on_process) if(not calc_complete(my_rank,current)) error("fail!") if(do_comms) check_all_tags_and_set_safe(send_tag, recv_tag, safe) check_tags_and_wait_if_need_be(next, send_tag, recv_tag) recv(prev_node, buffer(next), recv_tag(next)) safe(next)=false wait_until_true(all(calc_complete(:,current))) check_tags_and_wait_if_need_be(current, send_tag, recv_tag) send(next_node, buffer(current), send_tag(current)) safe(current)=false end if work_out_new_bounds() current=next next=mod(next,num_buffers)+1 end do end pseudo
So ideally, I would have liked to have run "check_all_tags_and_set_safe_flags" in a loop in another thread on the communicating process, or even better: do away with "safe flags" and make the handle to the sends / receives available on the slaves, then I could run: "check_tags_and_wait_if_need_be(current, send_tag, recv_tag)" (mpi_wait) before the calculation on the slaves instead of "wait_until_true(safe(current))".