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This is not a question on specific technical coding aspect of MPI. I am NEW to MPI, and not wanting to make a fool of myself of using the library in a wrong way, thus posting the question here.

As far as I understand, MPI is a environment for building parallel application on a distributed memory model.

I have a system that's interconnected with Infiniband, for the sole purpose of doing some very time consuming operations. I've already broke out the algorithm to do it in parallel, so I am really only using MPI to transmit data (results of the intermediate steps) between multiple nodes over Infiniband, which I believe one can simply use OpenIB to do.

Am I using MPI the right way? Or am I bending the original intention of the system?

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Yes, that's precisely what MPI was designed for. –  Shawn Chin Sep 23 '11 at 9:36

3 Answers 3

up vote 3 down vote accepted

The fewer and simpler the MPI constructs you need to use to get your work done, the better MPI is a match to your problem -- you can say that about most libraries and lanaguages, as a practical matter and argualbly an matter of abstractions.

Yes, you could write raw OpenIB calls to do your work too, but what happens when you need to move to an ethernet cluster, or huge shared-memory machine, or whatever the next big interconnect is? MPI is middleware, and as such, one of its big selling points is that you don't have to spend time writing network-level code.

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+1 No idea about the down vote, good point and makes perfect sense! –  jman Sep 28 '11 at 17:01
    
it answers my question, and I think I agree with you that using MPI does give me the ability to abstract away the underlying communication mechanism and thus more extensible (within the realm of MPI of course). –  code monkey Sep 30 '11 at 19:05

Its fine to use just MPI_Send & MPI_Recv in your algorithm. As your algorithm evolves, you gain more experience, etc. you may find use for the more "advanced" MPI features such as barrier & collective communication such as Gather, Reduce, etc.

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At the other end of the complexity spectrum, the time not to use MPI is when your problem or solution technique presents enough dynamism that MPI usage (most specifically, its process model) is a hindrance. A system like Charm++ (disclosure: I'm a developer of Charm++) lets you do problem decomposition in terms of finer grained units, and its runtime system manages the distribution of those units to processors to ensure load balance, and keeps track of where they are to direct communication appropriately.

Another not-uncommon issue is dynamic data access patterns, where something like Global Arrays or a PGAS language would be much easier to code.

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