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2

For pure MPI codes, what you describe is exactly what MPI_Ssend() gives you. However, here, you are not using pure MPI, you are using boost::mpi. And unfortunately, according to boost::mpi's documentation, MPI_Ssend() isn't supported. That said, maybe boost::mpi offers another way, but I doubt it.


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Your code is not valid, as your compiler will happily tell you. There is no such constructor for a std::vector<std::reference_wrapper<int>>. Also reference_wrapper does not magically work this way. One might think, that boost::iterator_range would be a good idea to use in this case, but it does not support serialization. So aside from building ...


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Implementations may or may not complete MPI_Send before the recieve is posted. Your code is not a correct MPI application. It may deadlock with a specific message size, on a specific network, during full moon while it's raining. In practice it mostly depends on the message size as implementations commonly send small messages to preallocated buffers. There ...


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This is only partly addressing the question, perhaps, but here goes: Q. @sehe I use the bundled properties, they are not automatically serialized from what I have tested. – user3658306 1 hour ago A. Not true: Live On Coliru #include <boost/graph/adjacency_list.hpp> #include <boost/graph/random.hpp> #include <random> static std::...


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If one of the MPI_COMM_WORLD processes dies, there is no way to properly continue the application. Sending a halt command and keeping the sender alive is absolutely what you should do. Theoretically, you could use one-sided communication in MPI or a timeout mechanism (using irecv / request::cancel), but I don't see any way this would make sense..


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The generally easiest way to force blocking behavior is to use larger messages that cause a switch to a so-called 'rendezvous' protocol, where the sender will wait for the recipient to post the matching receive operation before starting data transfer.


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Use the plain broadcast. The second version is not a correct MPI program. If it works, it is only by chance. In general broadcast and the other collectives are highly optimized and can utilize system topology information. Thus they perform better than if you would implement it on your own using point-to-point messages. Also they express your communication ...


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You could add the compiler option: -lboost_serialization


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You are quite close: Firstly your are missing the actual communication functions for the packed archives. You are trying to extract from the packed_iarchive without having received anything into that archive. For instance, you can use broadcast as described: with packed archives, the root sends a packed_oarchive [...] whereas the other processes receive ...


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You can consider tuning the eager limit value (http://blogs.cisco.com/performance/what-is-an-mpi-eager-limit) to force that send operation to block on any message size. The way to establish the eager limit, depends on the MPI implementation. On Intel MPI you can use the I_MPI_EAGER_THRESHOLD environment variable (see https://software.intel.com/sites/products/...


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If you want blocking behavior, use MPI_Ssend. It will block until a matching receive has been posted, without buffering the request. The amount of buffering provided by MPI_Send is (intentionally) implementation specific. The behavior you get for a buffer of 10000 may differ when trying a different implementation. I don't know if you can actually tweak the ...


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You can do the analogous to Does boost support serialization of c++11's std::tuple? Alternatively, use c++14 std::index_sequence with c++17's generalized fold expressions.



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