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I'm not sure I understand correctly the difference between the 'count' parameter in :

    int MPI_Reduce(void *sendbuf, void *recvbuf, int count, MPI_Datatype datatype, 
           MPI_Op op, int root, MPI_Comm comm);

and the 'blocklens' parameter of :

int MPI_Type_struct(int count,
               int blocklens[],
               MPI_Aint indices[],
               MPI_Datatype old_types[],
               MPI_Datatype *newtype);

Say I want to perform a reduction of my own type :

typedef struct buffers_s
{
   double *buf1, *buf2;
} Buffers;

where buf1 and buf2 are both allocated to N elements.

Then when calling MPI_Type_struct() to create a new mpi type 'Custom_MPI_Type' based on 'Buffers', I would set 'count' to 2, blocklens[0] to N and blocklens[1] to N too.

Then when the MPI type is created, assuming I have also created a reduction operator 'MyOp', I would call MPI_Reduce() with 'datatype' set to 'Custom_MPI_Type'. What then should be the value of the 'count' parameter ?

From my experience setting it to N works, however I don't really understand the meaning of that, considering I've already specified that the MPI type I've just created was made of 2 blocks of length N.

Said differently, when using MPI_Reduce() with arrays of basic types such as MPI_FLOAT, the 'count' parameter specifies the number of elements of type MPI_FLOAT starting at the address given as a first argument of MPI_Reduce()... so logically I would have expected, when using a custom Datatype, to set count to 1 element of type Custom_MPI_Type, provided that MPI already knows this type consists of 2 blocks of N elements of a given basic MPI_Datatype such as MPI_DOUBLE.

Could someone explain all that ?

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Here is a code that does the thing : pastebin.com/SDzrG4VD What I don't get is why I have to put 'size' line 217 although I already specified that lines 25 and 26. –  Heimdall Nov 17 '12 at 19:38

1 Answer 1

Derived datatypes in MPI do not generally work with types such as your Buffers. Jonathan Dursi has explained why in your other question. The structure datatype is mean to work with C/C++ structures such as:

#define N 1000

typedef struct buffers_s
{
   double buf1[N], buf2[N];
} Buffers;

In this case the offsets of buf1 and buf2 from the beginning of an instance of Buffers are always the same unlike in the case when buf1 and buf2 both point to dynamically allocated memory.

This said, the blocklengths parameter of MPI_Type_create_struct (MPI_Type_struct is deprecated in MPI-2 and even removed in MPI-3.0 so you should not use it) is used to describe the shape of the datatype itself. blocklengts[i] tells MPI how many elements of type old_types[i] are contained in the i-th element of the new datatype. For the above structure, blocklengths[0] = blocklengths[1] = N.

The count argument to MPI_Reduce tells MPI how many elements of datatype are there to be reduced. If datatype is your structure datatype it means how many instances of the structure are there. Continuing on the example code above, if you have an array of 10 instances of Buffers, e.g.:

Buffers bufs[10];

then you'd supply 10 in the count argument. This is completely orthogonal to the block count in the structure type constructor. The total number of elements communicated by a single process would be count times the sum of all elements of blocklengts[]. Your have correctly concluded that if only one element of the derived datatype is being reduced, then count should be set to 1.

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