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Can someone elaborate the differences between the OpenMPI and MPICH implementations of MPI ? Which of the two is a better implementation ?

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See this:… – Taylor Leese Mar 11 '10 at 18:03
We personally chose OpenMPI as our MPI implementation. For us, it benchmarked better and portability wasn't as much of an issue. See the question link Taylor L posted. – Xorlev Mar 11 '10 at 21:34

First, it is important to recognize how MPICH and OpenMPI are different, i.e. that they are designed to meet different needs. MPICH is supposed to be high-quality reference implementation of the latest MPI standard and the basis for derivative implementations to meet special purpose needs. OpenMPI targets the common case, both in terms of usage and network conduits.

One common complaint about MPICH is that it does not support InfiniBand, whereas OpenMPI does. However, MVAPICH and Intel MPI (among others) - both of which are MPICH derivatives - support InfiniBand, so if one is willing to define MPICH as "MPICH and its derivatives", then MPICH has extremely broad network support, including both InfiniBand and proprietary interconnects like Cray Seastar, Gemini and Aries as well as IBM Blue Gene (/L, /P and /Q). OpenMPI also supports Cray Gemini, but it is not not supported by Cray. Very recently, MPICH supports InfiniBand through a netmod, but MVAPICH2 has extensive optimizations that make it the preferred implementation in nearly all cases.

An orthogonal axis to hardware/platform support is coverage of the MPI standard. Here MPICH is far and away superior. MPICH has been the first implementation of every single release of the MPI standard, from MPI-1 to MPI-3. OpenMPI has only recently supported MPI-3 and I find that some MPI-3 features are buggy on some platforms. Furthermore, OpenMPI still does not have holistic support for MPI_THREAD_MULTIPLE, which is critical for some applications. It might be supported on some platforms but cannot generally be assumed to work. On the other hand, MPICH has had holistic support for MPI_THREAD_MULTIPLE for many years.

One area where OpenMPI used to be significantly superior was the process manager. The old MPICH launch (MPD) was brittle and hard to use. Fortunately, it has been deprecated for many years (see the MPICH FAQ entry for details). Thus, criticism of MPICH because MPD is spurius. The Hydra process manager is quite good and has the same usability and feature set as ORTE (in OpenMPI).

Here is my evaluation on a platform-by-platform basis:

  • Mac OS: both OpenMPI and MPICH should work just fine. If you want a release version that supports all of MPI-3 or MPI_THREAD_MULTIPLE, you probably need MPICH though. There is absolutely no reason to think about MPI performance if you're running on a Mac laptop.
  • Linux with shared-memory: both OpenMPI and MPICH should work just fine. If you want a release version that supports all of MPI-3 or MPI_THREAD_MULTIPLE, you probably need MPICH though. I am not aware of any significant performance differences between the two implementations. Both support single-copy optimizations if the OS allows them.
  • Linux with Mellanox InfiniBand: use OpenMPI or MVAPICH2. If you want a release version that supports all of MPI-3 or MPI_THREAD_MULTIPLE, you need MVAPICH2 though. I find that MVAPICH2 performs very well but haven't done a direct comparison with OpenMPI on InfiniBand, in part because the features for which performance matters most to me (RMA aka one-sided) have been broken in OpenMPI every time I've tried to use them.
  • Linux with Intel/Qlogic True Scale InfiniBand: I don't have any experience with OpenMPI in this context, but MPICH-based Intel MPI is a supported product for this network and MVAPICH2 also supports it.
  • Cray or IBM supercomputers: MPI comes installed on these machines automatically and it is based upon MPICH in both cases.
  • Windows: I see absolutely no point in running MPI on Windows except through a Linux VM, but both Microsoft MPI and Intel MPI support Windows and are MPICH-based.

In full disclosure, I currently work for Intel in a research capacity (and therefore have no special knowledge about products) and formerly worked for Argonne National Lab for five years, where I collaborated extensively with the MPICH team.

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It is possible that OpenMPI has superior support for shared-memory in collectives, but I need to investigate thoroughly before updating my answer. – Jeff Oct 6 '14 at 8:50
Can you elaborate why you see no point in running MPI on Windows? – Dmitri Nesteruk Feb 20 '15 at 8:54
No, but feel to ask a new question on StackOverflow about HPC on Windows. – Jeff Feb 22 '15 at 2:38
@Jeff, you highlighted the MPI_THREAD_MULTIPLE in the answer, but I don't have real experience to use it before. Could you give some user cases/ examples where the MPI_THREAD_MULTIPLE is useful and efficient compared with other modes such as MPI THREAD FUNNELED? My first impression is this function make the program more complex and hard to debug between thread and process. Thanks. – Patric Jan 14 at 3:54
I prefer to answer that as a new question rather than in the comments here. But I do have an answer for you :-) – Jeff Jan 14 at 4:05

Both are standards compliant, so it shouldn't matter which you use from a correctness point of view. Unless there is some feature, such as specific debug extensions, that you need, then benchmark both and pick whichever is faster for your apps on your hardware. Also consider that there are other MPI implementations that might give better performance or compatibility, such as MVAPICH (can have the best infiniband performance) or intel MPI (widely supported ISVs). HP worked hard to get their MPI qualified with lots of ISV codes too, but I'm not sure how it is faring after being sold on to Platform...

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I concur with the previous poster. Try both to see which one your application runs faster on then use it for production. They are both standards compliant. If it is your desktop either is fine. OpenMPI comes out of the box on Macbooks, and MPICH seems to be more Linux/Valgrind friendly. It is between you and your toolchain.

If it is a production cluster you need to do more extensive benchmarking to make sure it is optimized to your network topology. Configuring it on a production cluster will be the main difference in terms of your time as you will have to RTFM.

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If everyone RTFMed, we wouldn't need StackOverflow :-) – Jeff Oct 24 '14 at 18:08

in my opinion if you do development rather than production system, go with mpich. mpich has built-in debugger, while openmpi does not last time I checked.

In production openmpi most likely will be faster. But then you may want to research other alternatives, such as Intel mpi.

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Thanks for the tip !! – lava Mar 23 '10 at 21:42

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