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MPI_Bcast(void *buffer,  int count,  MPI_Datatype datatype,  int root,  MPI_Comm comm)

This function does not require the rank parameter. How does it know the rank of each process?

We should call the MPI_COMM_RANK() before broadcast, does any data structure (like communicator) store the rank of processes?

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i would also read the documentation, open-mpi.org/doc/v1.5/man3/MPI_Bcast.3.php, open-mpi has one of the best doc's for MPI – pyCthon Jul 29 '12 at 1:57
@pyCthon, the Open MPI documentation is just man-friendly version of the text found in the MPI-2.2 standards document (which is fine - no need to reinvent the wheel and to duplicate the efforts behind the excellent wording in the standard). – Hristo Iliev Jul 29 '12 at 17:14

Perhaps you didn't think it possible, but functions inside the MPI library can make internally the same MPI calls that you do use to obtain the process' rank or the size of a communicator. That's why MPI_Bcast() doesn't need the rank of the calling process because it simply calls the internal implementation of MPI_Comm_rank() in order to obtain it. Here is a small sample from one of the MPI_Bcast() implementations in Open MPI (more specifically, this is from the split binary tree implementation in the tuned module from the coll framework that provides algorithms implementing the collective operations):

ompi_coll_tuned_bcast_intra_split_bintree ( void* buffer,
                                            int count, 
                                            struct ompi_datatype_t* datatype, 
                                            int root,
                                            struct ompi_communicator_t* comm,
                                            mca_coll_base_module_t *module,
                                            uint32_t segsize )
    int rank, size;

    size = ompi_comm_size(comm);
    rank = ompi_comm_rank(comm);


As you can see, it calls the internal implementation of MPI_Comm_size() and MPI_Comm_rank(). These are very cheap calls in Open MPI. The rank of the process is stored in the process group that is associated with the communicator and is copied to a field in the communicator structure (to save a few CPU cycles dereferencing the pointer to the group) during the creation of a communicator (for more information refer to openmpi-source/ompi/communicator/communicator.h and openmpi-source/ompi/group/group.h).

As a matter of fact, no MPI communication primitive ever takes explicitly the rank of the calling process - it is always resolved internally. You only specify where to send the data (e.g. in MPI_SEND) or from where to receive the data (e.g. in MPI_RECV) or the data root in those collective operations which have one.

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Consider three possible implementations of MPI_Bcast():

  1. The root sends to root+1, and then sends to root+2, and then to root+3, etc. This is a linear order of magnitude
  2. Starting with the root, each process that has a copy of the data at iteration N forwards the data to rank xor 2^N. This is logarithmic order of magnitude.
  3. The root uses the router to perform a multicast to each process on the network. This is constant order of magnitude.

In each of these scenarios, the MPI_Bcast() function knows which process will get the next message. In the first and third case, any non-root process will simply receive the data; in the second, each process will continue the forwarding process once it receives the data. In all implementations, though, the order of sends and receives is deterministic on the bases of which process is the root. (That's why all processes must invoke MPI_Bcast(), whether root or not.)

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Nice explanation but it doesn't touch on the OP's question. – Hristo Iliev Jul 29 '12 at 17:46

You are right, the rank is stored in the communicator, and is available to the implementation of MPI_Bcast internally. Ranks are assigned when a communicator is created. For example, MPI_COMM_WORLD is created by MPI_Init.

MPI_Comm_rank simply gets the rank value from the communicator. There's no requirement to call it before a broadcast. However, knowing the rank is usually necessary to do any meaningful programming.

Note that since MPI_Bcast is a collective call, it needs to be performed by all processes in the communicator.

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Just to clarify: rank is the identifier (index) of the process in the process group associated with particular communicator. – Hristo Iliev Jul 29 '12 at 17:45
@HristoIliev OK, I'm being pedantic :) The other answer could be misleading though: the question explicitly asks if calling MPI_Comm_rank is required before MPI_Bcast, and the answer makes it sound like it is. – Greg Inozemtsev Jul 29 '12 at 17:53
Being pedantic is good, especially where standards are involved :) – Hristo Iliev Jul 29 '12 at 18:29

int root , is the rank of the broadcast root, essentially MPI broadcast sends a message from rank root to all the other ranks

also it would be considered by me a "best practice" to call the following after MPI_Init

  MPI_Comm_rank(MPI_COMM_WORLD, &rank);

this will assign each processor or core a int rank value from 0 to n-1


MPI_Comm_size( MPI_COMM_WORLD, &Numprocs);

this will create an int with Numproces being the total number of processors

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Just to clarify: MPI_Comm_rank and MPI_Comm_size do not assign ranks or sizes. These are simply accessors to retrieve the values of rank and size from the communicator. – Greg Inozemtsev Jul 29 '12 at 6:16

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