/* selector for collective algorithms based on openmpi's default coll_tuned_decision_fixed selector */
-/* Copyright (c) 2009, 2010. The SimGrid Team.
+/* Copyright (c) 2009-2010, 2013. The SimGrid Team.
* All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
comm);
} else if (block_dsize < 3000) {
- return smpi_coll_tuned_alltoall_simple(sbuf, scount, sdtype,
+ return smpi_coll_tuned_alltoall_basic_linear(sbuf, scount, sdtype,
rbuf, rcount, rdtype,
comm);
}
- return smpi_coll_tuned_alltoall_pair (sbuf, scount, sdtype,
+ return smpi_coll_tuned_alltoall_ring (sbuf, scount, sdtype,
rbuf, rcount, rdtype,
comm);
}
)
{
/* For starters, just keep the original algorithm. */
- return smpi_coll_tuned_alltoallv_bruck(sbuf, scounts, sdisps, sdtype,
+ return smpi_coll_tuned_alltoallv_ompi_basic_linear(sbuf, scounts, sdisps, sdtype,
rbuf, rcounts, rdisps,rdtype,
comm);
}
-/*
-void smpi_coll_tuned_barrier_ompi(MPI_Comm comm)
+
+int smpi_coll_tuned_barrier_ompi(MPI_Comm comm)
{ int communicator_size = smpi_comm_size(comm);
if( 2 == communicator_size )
- return smpi_coll_tuned_barrier_intra_two_procs(comm, module);
- * Basic optimisation. If we have a power of 2 number of nodes
- * the use the recursive doubling algorithm, otherwise
- * bruck is the one we want.
+ return smpi_coll_tuned_barrier_ompi_two_procs(comm);
+/* * Basic optimisation. If we have a power of 2 number of nodes*/
+/* * the use the recursive doubling algorithm, otherwise*/
+/* * bruck is the one we want.*/
{
- bool has_one = false;
+ int has_one = 0;
for( ; communicator_size > 0; communicator_size >>= 1 ) {
if( communicator_size & 0x1 ) {
if( has_one )
- return smpi_coll_tuned_barrier_intra_bruck(comm, module);
- has_one = true;
+ return smpi_coll_tuned_barrier_ompi_bruck(comm);
+ has_one = 1;
}
}
}
- return smpi_coll_tuned_barrier_intra_recursivedoubling(comm, module);
-}*/
+ return smpi_coll_tuned_barrier_ompi_recursivedoubling(comm);
+}
int smpi_coll_tuned_bcast_ompi(void *buff, int count,
MPI_Datatype datatype, int root,
rbuf, rcount, rdtype,
root, comm);
}
-/*
+
int smpi_coll_tuned_scatter_ompi(void *sbuf, int scount,
MPI_Datatype sdtype,
void* rbuf, int rcount,
MPI_Datatype rdtype,
- int root, MPI_Comm comm,
+ int root, MPI_Comm comm
)
{
const size_t small_block_size = 300;
int communicator_size, rank;
size_t dsize, block_size;
- OPAL_OUTPUT((smpi_coll_tuned_stream,
- "smpi_coll_tuned_scatter_ompi"));
+ XBT_DEBUG("smpi_coll_tuned_scatter_ompi");
communicator_size = smpi_comm_size(comm);
- rank = ompi_comm_rank(comm);
+ rank = smpi_comm_rank(comm);
// Determine block size
if (root == rank) {
- ompi_datatype_type_size(sdtype, &dsize);
+ dsize=smpi_datatype_size(sdtype);
block_size = dsize * scount;
} else {
- ompi_datatype_type_size(rdtype, &dsize);
+ dsize=smpi_datatype_size(rdtype);
block_size = dsize * rcount;
}
if ((communicator_size > small_comm_size) &&
(block_size < small_block_size)) {
- return smpi_coll_tuned_scatter_intra_binomial (sbuf, scount, sdtype,
- rbuf, rcount, rdtype,
- root, comm, module);
+ if(rank!=root){
+ sbuf=xbt_malloc(rcount*smpi_datatype_get_extent(rdtype));
+ scount=rcount;
+ sdtype=rdtype;
+ }
+ int ret=smpi_coll_tuned_scatter_ompi_binomial (sbuf, scount, sdtype,
+ rbuf, rcount, rdtype,
+ root, comm);
+ if(rank!=root){
+ xbt_free(sbuf);
+ }
+ return ret;
}
- return smpi_coll_tuned_scatter_intra_basic_linear (sbuf, scount, sdtype,
+ return smpi_coll_tuned_scatter_ompi_basic_linear (sbuf, scount, sdtype,
rbuf, rcount, rdtype,
- root, comm, module);
-}*/
+ root, comm);
+}