af4e86c25f
used at nce (up to one unique collective module per collective function). Matches r15795:15921 of the tmp/bwb-coll-select branch This commit was SVN r15924. The following SVN revisions from the original message are invalid or inconsistent and therefore were not cross-referenced: r15795 r15921
431 строка
16 KiB
C
431 строка
16 KiB
C
/*
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* Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
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* University Research and Technology
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* Corporation. All rights reserved.
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* Copyright (c) 2004-2006 The University of Tennessee and The University
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* of Tennessee Research Foundation. All rights
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* reserved.
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* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
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* University of Stuttgart. All rights reserved.
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* Copyright (c) 2004-2005 The Regents of the University of California.
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* All rights reserved.
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* $COPYRIGHT$
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*
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* Additional copyrights may follow
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*
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* $HEADER$
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*/
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#include "ompi_config.h"
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#include "mpi.h"
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#include "ompi/constants.h"
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#include "ompi/datatype/datatype.h"
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#include "ompi/communicator/communicator.h"
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#include "ompi/mca/coll/coll.h"
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#include "ompi/mca/coll/base/coll_tags.h"
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#include "ompi/mca/pml/pml.h"
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#include "ompi/op/op.h"
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#include "coll_tuned.h"
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#include "coll_tuned_topo.h"
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#include "coll_tuned_util.h"
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/*
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* Barrier is ment to be a synchronous operation, as some BTLs can mark
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* a request done before its passed to the NIC and progress might not be made
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* elsewhere we cannot allow a process to exit the barrier until its last
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* [round of] sends are completed.
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*
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* It is last round of sends rather than 'last' individual send as each pair of
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* peers can use different channels/devices/btls and the receiver of one of
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* these sends might be forced to wait as the sender
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* leaves the collective and does not make progress until the next mpi call
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*
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*/
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/*
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* Simple double ring version of barrier
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*
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* synchronous gurantee made by last ring of sends are synchronous
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*
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*/
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int ompi_coll_tuned_barrier_intra_doublering(struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module)
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{
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int rank, size;
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int err=0, line=0;
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int left, right;
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rank = ompi_comm_rank(comm);
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size = ompi_comm_size(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,"ompi_coll_tuned_barrier_intra_doublering rank %d", rank));
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left = ((rank-1)%size);
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right = ((rank+1)%size);
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if (rank > 0) { /* receive message from the left */
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err = MCA_PML_CALL(recv((void*)NULL, 0, MPI_BYTE, left,
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MCA_COLL_BASE_TAG_BARRIER, comm,
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MPI_STATUS_IGNORE));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl; }
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}
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/* Send message to the right */
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err = MCA_PML_CALL(send((void*)NULL, 0, MPI_BYTE, right,
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MCA_COLL_BASE_TAG_BARRIER,
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MCA_PML_BASE_SEND_STANDARD, comm));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl; }
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/* root needs to receive from the last node */
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if (rank == 0) {
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err = MCA_PML_CALL(recv((void*)NULL, 0, MPI_BYTE, left,
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MCA_COLL_BASE_TAG_BARRIER, comm,
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MPI_STATUS_IGNORE));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl; }
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}
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/* Allow nodes to exit */
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if (rank > 0) { /* post Receive from left */
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err = MCA_PML_CALL(recv((void*)NULL, 0, MPI_BYTE, left,
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MCA_COLL_BASE_TAG_BARRIER, comm,
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MPI_STATUS_IGNORE));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl; }
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}
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/* send message to the right one */
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err = MCA_PML_CALL(send((void*)NULL, 0, MPI_BYTE, right,
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MCA_COLL_BASE_TAG_BARRIER,
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MCA_PML_BASE_SEND_SYNCHRONOUS, comm));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl; }
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/* rank 0 post receive from the last node */
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if (rank == 0) {
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err = MCA_PML_CALL(recv((void*)NULL, 0, MPI_BYTE, left,
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MCA_COLL_BASE_TAG_BARRIER, comm,
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MPI_STATUS_IGNORE));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl; }
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}
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return MPI_SUCCESS;
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err_hndl:
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OPAL_OUTPUT((ompi_coll_tuned_stream,"%s:%4d\tError occurred %d, rank %2d",
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__FILE__, line, err, rank));
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return err;
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}
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/*
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* To make synchronous, uses sync sends and sync sendrecvs
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*/
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int ompi_coll_tuned_barrier_intra_recursivedoubling(struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module)
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{
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int rank, size, adjsize;
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int err, line;
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int mask, remote;
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rank = ompi_comm_rank(comm);
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size = ompi_comm_size(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,
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"ompi_coll_tuned_barrier_intra_recursivedoubling rank %d",
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rank));
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/* do nearest power of 2 less than size calc */
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for( adjsize = 1; adjsize <= size; adjsize <<= 1 );
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adjsize >>= 1;
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/* if size is not exact power of two, perform an extra step */
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if (adjsize != size) {
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if (rank >= adjsize) {
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/* send message to lower ranked node */
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remote = rank - adjsize;
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err = ompi_coll_tuned_sendrecv_actual(NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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comm, MPI_STATUS_IGNORE);
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl;}
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} else if (rank < (size - adjsize)) {
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/* receive message from high level rank */
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err = MCA_PML_CALL(recv((void*)NULL, 0, MPI_BYTE, rank+adjsize,
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MCA_COLL_BASE_TAG_BARRIER, comm,
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MPI_STATUS_IGNORE));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl;}
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}
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}
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/* exchange messages */
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if ( rank < adjsize ) {
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mask = 0x1;
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while ( mask < adjsize ) {
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remote = rank ^ mask;
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mask <<= 1;
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if (remote >= adjsize) continue;
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/* post receive from the remote node */
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err = ompi_coll_tuned_sendrecv_actual(NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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comm, MPI_STATUS_IGNORE);
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl;}
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}
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}
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/* non-power of 2 case */
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if (adjsize != size) {
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if (rank < (size - adjsize)) {
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/* send enter message to higher ranked node */
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remote = rank + adjsize;
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err = MCA_PML_CALL(send((void*)NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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MCA_PML_BASE_SEND_SYNCHRONOUS, comm));
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl;}
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}
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}
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return MPI_SUCCESS;
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err_hndl:
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OPAL_OUTPUT((ompi_coll_tuned_stream,"%s:%4d\tError occurred %d, rank %2d",
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__FILE__, line, err, rank));
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return err;
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}
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/*
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* To make synchronous, uses sync sends and sync sendrecvs
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*/
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int ompi_coll_tuned_barrier_intra_bruck(struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module)
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{
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int rank, size;
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int distance, to, from;
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int err, line = 0;
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rank = ompi_comm_rank(comm);
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size = ompi_comm_size(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,
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"ompi_coll_tuned_barrier_intra_bruck rank %d", rank));
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/* exchange data with rank-2^k and rank+2^k */
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for (distance = 1; distance < size; distance <<= 1) {
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from = (rank + size - distance) % size;
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to = (rank + distance) % size;
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/* send message to lower ranked node */
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err = ompi_coll_tuned_sendrecv_actual(NULL, 0, MPI_BYTE, to,
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MCA_COLL_BASE_TAG_BARRIER,
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NULL, 0, MPI_BYTE, from,
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MCA_COLL_BASE_TAG_BARRIER,
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comm, MPI_STATUS_IGNORE);
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if (err != MPI_SUCCESS) { line = __LINE__; goto err_hndl;}
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}
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return MPI_SUCCESS;
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err_hndl:
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OPAL_OUTPUT((ompi_coll_tuned_stream,"%s:%4d\tError occurred %d, rank %2d",
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__FILE__, line, err, rank));
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return err;
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}
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/*
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* To make synchronous, uses sync sends and sync sendrecvs
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*/
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/* special case for two processes */
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int ompi_coll_tuned_barrier_intra_two_procs(struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module)
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{
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int remote, err;
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remote = ompi_comm_rank(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,
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"ompi_coll_tuned_barrier_intra_two_procs rank %d", remote));
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remote = (remote + 1) & 0x1;
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err = ompi_coll_tuned_sendrecv_actual(NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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NULL, 0, MPI_BYTE, remote,
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MCA_COLL_BASE_TAG_BARRIER,
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comm, MPI_STATUS_IGNORE);
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return (err);
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}
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/*
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* Linear functions are copied from the BASIC coll module
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* they do not segment the message and are simple implementations
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* but for some small number of nodes and/or small data sizes they
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* are just as fast as tuned/tree based segmenting operations
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* and as such may be selected by the decision functions
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* These are copied into this module due to the way we select modules
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* in V1. i.e. in V2 we will handle this differently and so will not
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* have to duplicate code.
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* GEF Oct05 after asking Jeff.
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*/
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/* copied function (with appropriate renaming) starts here */
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static int ompi_coll_tuned_barrier_intra_basic_linear(struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module)
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{
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int i, err;
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int size = ompi_comm_size(comm);
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int rank = ompi_comm_rank(comm);
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/* All non-root send & receive zero-length message. */
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if (rank > 0) {
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err = MCA_PML_CALL(send (NULL, 0, MPI_BYTE, 0,
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MCA_COLL_BASE_TAG_BARRIER,
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MCA_PML_BASE_SEND_STANDARD, comm));
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if (MPI_SUCCESS != err) {
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return err;
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}
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err = MCA_PML_CALL(recv (NULL, 0, MPI_BYTE, 0,
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MCA_COLL_BASE_TAG_BARRIER,
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comm, MPI_STATUS_IGNORE));
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if (MPI_SUCCESS != err) {
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return err;
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}
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}
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/* The root collects and broadcasts the messages. */
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else {
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ompi_request_t** requests;
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requests = (ompi_request_t**)malloc( size * sizeof(ompi_request_t*) );
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for (i = 1; i < size; ++i) {
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err = MCA_PML_CALL(irecv(NULL, 0, MPI_BYTE, MPI_ANY_SOURCE,
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MCA_COLL_BASE_TAG_BARRIER, comm,
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&(requests[i])));
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if (MPI_SUCCESS != err) {
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return err;
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}
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}
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ompi_request_wait_all( size-1, requests+1, MPI_STATUSES_IGNORE );
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for (i = 1; i < size; ++i) {
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err = MCA_PML_CALL(isend(NULL, 0, MPI_BYTE, i,
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MCA_COLL_BASE_TAG_BARRIER,
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MCA_PML_BASE_SEND_STANDARD, comm,
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&(requests[i])));
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if (MPI_SUCCESS != err) {
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return err;
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}
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}
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ompi_request_wait_all( size-1, requests+1, MPI_STATUSES_IGNORE );
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free( requests );
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}
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/* All done */
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return MPI_SUCCESS;
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}
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/* copied function (with appropriate renaming) ends here */
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/* The following are used by dynamic and forced rules */
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/* publish details of each algorithm and if its forced/fixed/locked in */
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/* as you add methods/algorithms you must update this and the query/map */
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/* routines */
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/* this routine is called by the component only */
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/* this makes sure that the mca parameters are set to their initial values */
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/* and perms */
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/* module does not call this they call the forced_getvalues routine instead */
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int ompi_coll_tuned_barrier_intra_check_forced_init (coll_tuned_force_algorithm_mca_param_indices_t *mca_param_indices)
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{
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int rc, max_alg = 5, requested_alg;
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ompi_coll_tuned_forced_max_algorithms[BARRIER] = max_alg;
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rc = mca_base_param_reg_int (&mca_coll_tuned_component.super.collm_version,
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"barrier_algorithm_count",
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"Number of barrier algorithms available",
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false, true, max_alg, NULL);
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mca_param_indices->algorithm_param_index =
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mca_base_param_reg_int(&mca_coll_tuned_component.super.collm_version,
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"barrier_algorithm",
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"Which barrier algorithm is used. Can be locked down to choice of: 0 ignore, 1 linear, 2 double ring, 3: recursive doubling 4: bruck, 5: two proc only",
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false, false, 0, NULL);
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mca_base_param_lookup_int(mca_param_indices->algorithm_param_index,
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&(requested_alg));
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if( requested_alg > max_alg ) {
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if( 0 == ompi_comm_rank( MPI_COMM_WORLD ) ) {
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opal_output( 0, "Barrier algorithm #%d is not available (range [0..%d]). Switching back to ignore(0)\n",
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requested_alg, max_alg );
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}
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mca_base_param_set_int( mca_param_indices->algorithm_param_index, 0);
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}
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return (MPI_SUCCESS);
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}
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int ompi_coll_tuned_barrier_intra_do_forced(struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module)
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{
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mca_coll_tuned_module_t *tuned_module = (mca_coll_tuned_module_t*) module;
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mca_coll_tuned_comm_t *data = tuned_module->tuned_data;
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OPAL_OUTPUT((ompi_coll_tuned_stream,
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"coll:tuned:barrier_intra_do_forced selected algorithm %d",
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data->user_forced[BARRIER].algorithm));
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switch (data->user_forced[BARRIER].algorithm) {
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case (0): return ompi_coll_tuned_barrier_intra_dec_fixed (comm, module);
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case (1): return ompi_coll_tuned_barrier_intra_basic_linear (comm, module);
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case (2): return ompi_coll_tuned_barrier_intra_doublering (comm, module);
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case (3): return ompi_coll_tuned_barrier_intra_recursivedoubling (comm, module);
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case (4): return ompi_coll_tuned_barrier_intra_bruck (comm, module);
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case (5): return ompi_coll_tuned_barrier_intra_two_procs (comm, module);
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default:
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OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:barrier_intra_do_forced attempt to select algorithm %d when only 0-%d is valid?",
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data->user_forced[BARRIER].algorithm,
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ompi_coll_tuned_forced_max_algorithms[BARRIER]));
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return (MPI_ERR_ARG);
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} /* switch */
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}
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int ompi_coll_tuned_barrier_intra_do_this (struct ompi_communicator_t *comm,
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struct mca_coll_base_module_1_1_0_t *module,
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int algorithm, int faninout, int segsize)
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{
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OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:barrier_intra_do_this selected algorithm %d topo fanin/out%d", algorithm, faninout));
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switch (algorithm) {
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case (0): return ompi_coll_tuned_barrier_intra_dec_fixed (comm, module);
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case (1): return ompi_coll_tuned_barrier_intra_basic_linear (comm, module);
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case (2): return ompi_coll_tuned_barrier_intra_doublering (comm, module);
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case (3): return ompi_coll_tuned_barrier_intra_recursivedoubling (comm, module);
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case (4): return ompi_coll_tuned_barrier_intra_bruck (comm, module);
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case (5): return ompi_coll_tuned_barrier_intra_two_procs (comm, module);
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default:
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OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:barrier_intra_do_this attempt to select algorithm %d when only 0-%d is valid?",
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algorithm, ompi_coll_tuned_forced_max_algorithms[BARRIER]));
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return (MPI_ERR_ARG);
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} /* switch */
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}
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