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I am looking at the code here which I am doing for practice.

http://www.mcs.anl.gov/research/projects/mpi/usingmpi/examples/simplempi/main.html

I am confused about the part shown here.

MPI::COMM_WORLD.Reduce(&mypi, &pi, 1, MPI::DOUBLE, MPI::SUM, 0); 
if (rank == 0) 
    cout << "pi is approximately " << pi 
         << ", Error is " << fabs(pi - PI25DT) 
         << endl; 

My question is does the mpi reduce function know when all the other processes (in this case the programs with rank 1-3) have finished and that its result is complete?

2 Answers 2

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All collective communication calls (Reduce, Gather, Scatter, etc) are blocking.

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  • All collective communication calls do, meaning that all processes will block until all the other processes in the specified group have reached a matching call. Dec 23, 2011 at 3:14
  • 3
    While this is usually true in practice, the MPI standard discourages relying on implicit synchronization. See comment under "Advice to users". A collective is guaranteed to produce the required result by the time it returns, but is not necessarily synchronizing. Imagine for example a broadcast that caches its result somewhere and then allows the root to proceed. Just because MPI_Bcast returned on the root does not mean the other processes reached the corresponding MPI_Bcast call. Dec 27, 2011 at 8:01
  • 2
    in case anyone is interested, I found out this is not the case for Bcast() in OpenMPI (1.6 linux x64). The broadcaster does not block but all receivers do block until message is sent by broadcaster. I would assume it would be the same for Gather (senders will not block but receiver will block).
    – Mel
    Sep 11, 2013 at 6:53
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@g.inozemtsev is correct. The MPI collective calls -- including those in Open MPI -- are "blocking" in the MPI sense of the word, meaning that you can use the buffer when the call returns. In an operation like MPI_REDUCE, it means that the root process will have the answer in its buffer when it returns. Further, it means that non-root processes in an MPI_REDUCE can safely overwrite their buffer when MPI_REDUCE returns (which usually means that their part in the reduction is complete).

However, note that as mentioned above, the return from a collective operation such as an MPI_REDUCE in one process has no bearing on the return of the same collective operation in a peer process. The only exception to this rule is MPI_BARRIER, because barrier is defined as an explicit synchronization, whereas all the other MPI-2.2 collective operations do not necessarily need to explicitly synchronize.

As a concrete example, say that all non-root processes call MPI_REDUCE at time X. The root finally calls MPI_REDUCE at time X+N (for this example, assume N is large). Depending on the implementation, the non-root processes may return much earlier than X+N or they may block until X+N(+M). The MPI standard is intentionally vague on this point to allow MPI implementations to do what they want / need (which may also be dictated by resource consumption/availability).

Hence, @g.inozemtsev's point of "You cannot rely on synchronization" (except for with MPI_BARRIER) is correct.

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