MPI_Reduce(void* sendbuf, void* recvbuf, int count, MPI_Datatype datatype, MPI_Op op, int root, MPI_Comm comm)
MPI_REDUCE(SENDBUF, RECVBUF, COUNT, DATATYPE, OP, ROOT, COMM, IERROR) <type> SENDBUF(*), RECVBUF(*)
INTEGER COUNT, DATATYPE, OP, ROOT, COMM, IERROR
MPI_REDUCE combines the elements provided in the input buffer of each process in the group, using the operation op, and returns the combined value in the output buffer of the process with rank root. The input buffer is defined by the arguments sendbuf, count and datatype; the output buffer is defined by the arguments recvbuf, count and datatype; both have the same number of elements, with the same type. The arguments count, op and root must have identical values at all processes, the datatype arguments should match, and comm should represent the same intragroup communication domain. Thus, all processes provide input buffers and output buffers of the same length, with elements of the same type. Each process can provide one element, or a sequence of elements, in which case the combine operation is executed element-wise on each entry of the sequence. For example, if the operation is MPI_MAX and the send buffer MPI_MAX contains two elements that are floating point numbers (count = 2 and datatype = MPI_FLOAT), then recvbuf(0) = globalmax(sendbuf(0)) and recvbuf(1)i = globalmax(sendbuf(1)).
Section lists the set of predefined operations provided by MPI. That section also enumerates the allowed datatypes for each operation. In addition, users may define their own operations that can be overloaded to operate on several datatypes, either basic or derived. This is further explained in Section .
The operation op is always assumed to be associative. All predefined operations are also commutative. Users may define operations that are assumed to be associative, but not commutative. The ``canonical'' evaluation order of a reduction is determined by the ranks of the processes in the group. However, the implementation can take advantage of associativity, or associativity and commutativity in order to change the order of evaluation. This may change the result of the reduction for operations that are not strictly associative and commutative, such as floating point addition.
The datatype argument of MPI_REDUCE must be compatible with op. Predefined operators work only with the MPI types listed in Section and Section . User-defined operators may operate on general, derived datatypes. In this case, each argument that the reduce operation is applied to is one element described by such a datatype, which may contain several basic values. This is further explained in Section .