e193d625bc
The step used to iterate through buffer was function of true_extent instead of extent. This may or may not solve ticket #689 because I am still getting failures over btl mx, but I cannot reproduce failures over mtl mx nor tcp. This commit was SVN r13459.
680 строки
30 KiB
C
680 строки
30 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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* ompi_coll_tuned_allreduce_intra_nonoverlapping
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*
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* This function just calls a reduce followed by a broadcast
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* both called functions are tuned but they complete sequentially,
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* i.e. no additional overlapping
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* meaning if the number of segments used is greater than the topo depth
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* then once the first segment of data is fully 'reduced' it is not broadcast
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* while the reduce continues (cost = cost-reduce + cost-bcast + decision x 3)
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*
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*/
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int
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ompi_coll_tuned_allreduce_intra_nonoverlapping(void *sbuf, void *rbuf, int count,
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struct ompi_datatype_t *dtype,
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struct ompi_op_t *op,
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struct ompi_communicator_t *comm)
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{
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int err;
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int rank;
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rank = ompi_comm_rank(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:allreduce_intra_nonoverlapping rank %d", rank));
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/* Reduce to 0 and broadcast. */
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if (MPI_IN_PLACE == sbuf) {
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if (0 == ompi_comm_rank(comm)) {
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err = comm->c_coll.coll_reduce (MPI_IN_PLACE, rbuf, count, dtype,
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op, 0, comm);
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} else {
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err = comm->c_coll.coll_reduce (rbuf, NULL, count, dtype, op, 0,
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comm);
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}
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} else {
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err = comm->c_coll.coll_reduce (sbuf, rbuf, count, dtype, op, 0, comm);
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}
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if (MPI_SUCCESS != err) {
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return err;
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}
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return comm->c_coll.coll_bcast (rbuf, count, dtype, 0, comm);
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}
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/*
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* ompi_coll_tuned_allreduce_intra_recursivedoubling
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*
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* Function: Recursive doubling algorithm for allreduce operation
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* Accepts: Same as MPI_Allreduce()
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* Returns: MPI_SUCCESS or error code
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*
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* Description: Implements recursive doubling algorithm for allreduce.
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* Original (non-segmented) implementation is used in MPICH-2
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* for small and intermediate size messages.
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* The algorithm preserves order of operations so it can
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* be used both by commutative and non-commutative operations.
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*
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* Example on 7 nodes:
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* Initial state
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* # 0 1 2 3 4 5 6
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* [0] [1] [2] [3] [4] [5] [6]
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* Initial adjustment step for non-power of two nodes.
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* old rank 1 3 5 6
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* new rank 0 1 2 3
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* [0+1] [2+3] [4+5] [6]
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* Step 1
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* old rank 1 3 5 6
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* new rank 0 1 2 3
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* [0+1+] [0+1+] [4+5+] [4+5+]
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* [2+3+] [2+3+] [6 ] [6 ]
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* Step 2
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* old rank 1 3 5 6
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* new rank 0 1 2 3
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* [0+1+] [0+1+] [0+1+] [0+1+]
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* [2+3+] [2+3+] [2+3+] [2+3+]
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* [4+5+] [4+5+] [4+5+] [4+5+]
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* [6 ] [6 ] [6 ] [6 ]
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* Final adjustment step for non-power of two nodes
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* # 0 1 2 3 4 5 6
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* [0+1+] [0+1+] [0+1+] [0+1+] [0+1+] [0+1+] [0+1+]
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* [2+3+] [2+3+] [2+3+] [2+3+] [2+3+] [2+3+] [2+3+]
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* [4+5+] [4+5+] [4+5+] [4+5+] [4+5+] [4+5+] [4+5+]
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* [6 ] [6 ] [6 ] [6 ] [6 ] [6 ] [6 ]
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*
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*/
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int
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ompi_coll_tuned_allreduce_intra_recursivedoubling(void *sbuf, void *rbuf,
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int count,
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struct ompi_datatype_t *dtype,
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struct ompi_op_t *op,
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struct ompi_communicator_t *comm)
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{
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int ret, line;
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int rank, size, adjsize, remote, distance;
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int newrank, newremote, extra_ranks;
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char *tmpsend = NULL, *tmprecv = NULL, *tmpswap = NULL, *inplacebuf = NULL;
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ptrdiff_t true_lb, true_extent, lb, extent;
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ompi_request_t *reqs[2] = {NULL, NULL};
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size = ompi_comm_size(comm);
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rank = ompi_comm_rank(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,
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"coll:tuned:allreduce_intra_recursivedoubling rank %d", rank));
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/* Special case for size == 1 */
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if (1 == size) {
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if (MPI_IN_PLACE != sbuf) {
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ret = ompi_ddt_copy_content_same_ddt(dtype, count, (char*)rbuf, (char*)sbuf);
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if (ret < 0) { line = __LINE__; goto error_hndl; }
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}
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return MPI_SUCCESS;
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}
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/* Allocate and initialize temporary send buffer */
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ret = ompi_ddt_get_extent(dtype, &lb, &extent);
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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ret = ompi_ddt_get_true_extent(dtype, &true_lb, &true_extent);
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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inplacebuf = (char*) malloc(true_extent + (count - 1) * extent);
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if (NULL == inplacebuf) { ret = -1; line = __LINE__; goto error_hndl; }
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if (MPI_IN_PLACE == sbuf) {
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ret = ompi_ddt_copy_content_same_ddt(dtype, count, inplacebuf, (char*)rbuf);
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if (ret < 0) { line = __LINE__; goto error_hndl; }
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} else {
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ret = ompi_ddt_copy_content_same_ddt(dtype, count, inplacebuf, (char*)sbuf);
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if (ret < 0) { line = __LINE__; goto error_hndl; }
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}
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tmpsend = (char*) inplacebuf;
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tmprecv = (char*) rbuf;
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/* Determine nearest power of two less than or equal to size */
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for (adjsize = 0x1; adjsize <= size; adjsize <<= 1); adjsize = adjsize >> 1;
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/* Handle non-power-of-two case:
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- Even ranks less than 2 * extra_ranks send their data to (rank + 1), and
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sets new rank to -1.
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- Odd ranks less than 2 * extra_ranks receive data from (rank - 1),
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apply appropriate operation, and set new rank to rank/2
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- Everyone else sets rank to rank - extra_ranks
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*/
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extra_ranks = size - adjsize;
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if (rank < (2 * extra_ranks)) {
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if (0 == (rank % 2)) {
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ret = MCA_PML_CALL(send(tmpsend, count, dtype, (rank + 1),
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MCA_COLL_BASE_TAG_ALLREDUCE,
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MCA_PML_BASE_SEND_STANDARD, comm));
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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newrank = -1;
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} else {
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ret = MCA_PML_CALL(recv(tmprecv, count, dtype, (rank - 1),
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MCA_COLL_BASE_TAG_ALLREDUCE, comm,
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MPI_STATUS_IGNORE));
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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/* tmpsend = tmprecv (op) tmpsend */
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ompi_op_reduce(op, tmprecv, tmpsend, count, dtype);
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newrank = rank >> 1;
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}
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} else {
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newrank = rank - extra_ranks;
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}
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/* Communication/Computation loop
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- Exchange message with remote node.
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- Perform appropriate operation taking in account order of operations:
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result = value (op) result
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*/
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for (distance = 0x1; distance < adjsize; distance <<=1) {
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if (newrank < 0) break;
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/* Determine remote node */
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newremote = newrank ^ distance;
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remote = (newremote < extra_ranks)?
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(newremote * 2 + 1):(newremote + extra_ranks);
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/* Exchange the data */
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ret = MCA_PML_CALL(irecv(tmprecv, count, dtype, remote,
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MCA_COLL_BASE_TAG_ALLREDUCE, comm, &reqs[0]));
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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ret = MCA_PML_CALL(isend(tmpsend, count, dtype, remote,
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MCA_COLL_BASE_TAG_ALLREDUCE,
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MCA_PML_BASE_SEND_STANDARD, comm, &reqs[1]));
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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ret = ompi_request_wait_all(2, reqs, MPI_STATUSES_IGNORE);
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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/* Apply operation */
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if (rank < remote) {
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/* tmprecv = tmpsend (op) tmprecv */
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ompi_op_reduce(op, tmpsend, tmprecv, count, dtype);
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tmpswap = tmprecv;
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tmprecv = tmpsend;
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tmpsend = tmpswap;
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} else {
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/* tmpsend = tmprecv (op) tmpsend */
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ompi_op_reduce(op, tmprecv, tmpsend, count, dtype);
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}
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}
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/* Handle non-power-of-two case:
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- Odd ranks less than 2 * extra_ranks send result from tmpsend to
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(rank - 1)
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- Even ranks less than 2 * extra_ranks receive result from (rank + 1)
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*/
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if (rank < (2 * extra_ranks)) {
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if (0 == (rank % 2)) {
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ret = MCA_PML_CALL(recv(rbuf, count, dtype, (rank + 1),
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MCA_COLL_BASE_TAG_ALLREDUCE, comm,
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MPI_STATUS_IGNORE));
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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tmpsend = (char*)rbuf;
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} else {
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ret = MCA_PML_CALL(send(tmpsend, count, dtype, (rank - 1),
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MCA_COLL_BASE_TAG_ALLREDUCE,
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MCA_PML_BASE_SEND_STANDARD, comm));
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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}
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}
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/* Ensure that the final result is in rbuf */
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if (tmpsend != rbuf) {
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ret = ompi_ddt_copy_content_same_ddt(dtype, count, (char*)rbuf, tmpsend);
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if (ret < 0) { line = __LINE__; goto error_hndl; }
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}
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if (NULL != inplacebuf) free(inplacebuf);
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return MPI_SUCCESS;
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error_hndl:
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OPAL_OUTPUT((ompi_coll_tuned_stream, "%s:%4d\tRank %d Error occurred %d\n",
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__FILE__, line, rank, ret));
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if (NULL != inplacebuf) free(inplacebuf);
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return ret;
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}
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/*
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* ompi_coll_tuned_allreduce_intra_ring
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*
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* Function: Ring algorithm for allreduce operation
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* Accepts: Same as MPI_Allreduce()
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* Returns: MPI_SUCCESS or error code
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*
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* Description: Implements ring algorithm for allreduce: the message is
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* automatically segmented to segment of size M/N.
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* Algorithm requires 2*N - 1 steps.
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*
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* Limitations: The algorithm DOES NOT preserve order of operations so it
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* can be used only for commutative operations.
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* In addition, algorithm cannot work if the total count is
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* less than size.
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* Example on 5 nodes:
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* Initial state
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* # 0 1 2 3 4
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* [00] [10] [20] [30] [40]
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* [01] [11] [21] [31] [41]
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* [02] [12] [22] [32] [42]
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* [03] [13] [23] [33] [43]
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* [04] [14] [24] [34] [44]
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*
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* COMPUTATION PHASE
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* Step 0: rank r sends block r to rank (r+1) and receives bloc (r-1)
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* from rank (r-1) [with wraparound].
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* # 0 1 2 3 4
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* [00] [00+10] [20] [30] [40]
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* [01] [11] [11+21] [31] [41]
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* [02] [12] [22] [22+32] [42]
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* [03] [13] [23] [33] [33+43]
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* [44+04] [14] [24] [34] [44]
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*
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* Step 1: rank r sends block (r-1) to rank (r+1) and receives bloc
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* (r-2) from rank (r-1) [with wraparound].
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* # 0 1 2 3 4
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* [00] [00+10] [01+10+20] [30] [40]
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* [01] [11] [11+21] [11+21+31] [41]
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* [02] [12] [22] [22+32] [22+32+42]
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* [33+43+03] [13] [23] [33] [33+43]
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* [44+04] [44+04+14] [24] [34] [44]
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*
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* Step 2: rank r sends block (r-2) to rank (r+1) and receives bloc
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* (r-2) from rank (r-1) [with wraparound].
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* # 0 1 2 3 4
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* [00] [00+10] [01+10+20] [01+10+20+30] [40]
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* [01] [11] [11+21] [11+21+31] [11+21+31+41]
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* [22+32+42+02] [12] [22] [22+32] [22+32+42]
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* [33+43+03] [33+43+03+13] [23] [33] [33+43]
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* [44+04] [44+04+14] [44+04+14+24] [34] [44]
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*
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* Step 3: rank r sends block (r-3) to rank (r+1) and receives bloc
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* (r-3) from rank (r-1) [with wraparound].
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* # 0 1 2 3 4
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* [00] [00+10] [01+10+20] [01+10+20+30] [FULL]
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* [FULL] [11] [11+21] [11+21+31] [11+21+31+41]
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* [22+32+42+02] [FULL] [22] [22+32] [22+32+42]
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* [33+43+03] [33+43+03+13] [FULL] [33] [33+43]
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* [44+04] [44+04+14] [44+04+14+24] [FULL] [44]
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*
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* DISTRIBUTION PHASE: ring ALLGATHER with ranks shifted by 1.
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*
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*/
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int
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ompi_coll_tuned_allreduce_intra_ring(void *sbuf, void *rbuf, int count,
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struct ompi_datatype_t *dtype,
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struct ompi_op_t *op,
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struct ompi_communicator_t *comm)
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{
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int ret, line;
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int rank, size, k, recvfrom, sendto;
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int segcount, lastsegcount, maxsegcount;
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int blockcount, inbi;
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size_t typelng;
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char *tmpsend = NULL, *tmprecv = NULL;
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char *inbuf[2] = {NULL, NULL};
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ptrdiff_t true_lb, true_extent, lb, extent, realsegsize, maxrealsegsize;
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ompi_request_t *reqs[2] = {NULL, NULL};
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size = ompi_comm_size(comm);
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rank = ompi_comm_rank(comm);
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OPAL_OUTPUT((ompi_coll_tuned_stream,
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"coll:tuned:allreduce_intra_ring rank %d, count %d", rank, count));
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/* Special case for size == 1 */
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if (1 == size) {
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if (MPI_IN_PLACE != sbuf) {
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ret = ompi_ddt_copy_content_same_ddt(dtype, count, (char*)rbuf, (char*)sbuf);
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if (ret < 0) { line = __LINE__; goto error_hndl; }
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}
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return MPI_SUCCESS;
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}
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/* Special case for count less than size - 1 - use recursive doubling */
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if (count < size - 1) {
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OPAL_OUTPUT((ompi_coll_tuned_stream, "coll:tuned:allreduce_ring rank %d/%d, count %d, switching to recursive doubling", rank, size, count));
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return (ompi_coll_tuned_allreduce_intra_recursivedoubling(sbuf, rbuf,
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count,
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dtype, op,
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comm));
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}
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/* Allocate and initialize temporary buffers */
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ret = ompi_ddt_get_extent(dtype, &lb, &extent);
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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ret = ompi_ddt_get_true_extent(dtype, &true_lb, &true_extent);
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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ret = ompi_ddt_type_size( dtype, &typelng);
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if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
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/* Determine number of elements per block.
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This is not the same computation as the one for number of elements
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per segment - and we may end up having last block larger any other block.
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*/
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segcount = count / size;
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if (0 != count % size) segcount++;
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lastsegcount = count - (size - 1) * segcount;
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if (lastsegcount <= 0) {
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segcount--;
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lastsegcount = count - (size - 1) * segcount;
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}
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realsegsize = segcount * extent;
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maxsegcount = (segcount > lastsegcount)? segcount : lastsegcount;
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maxrealsegsize = true_extent + (maxsegcount - 1) * extent;
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inbuf[0] = (char*)malloc(maxrealsegsize);
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if (NULL == inbuf[0]) { ret = -1; line = __LINE__; goto error_hndl; }
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if (size > 2) {
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inbuf[1] = (char*)malloc(maxrealsegsize);
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if (NULL == inbuf[1]) { ret = -1; line = __LINE__; goto error_hndl; }
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}
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/* Handle MPI_IN_PLACE */
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if (MPI_IN_PLACE != sbuf) {
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ret = ompi_ddt_copy_content_same_ddt(dtype, count, (char*)rbuf, (char*)sbuf);
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if (ret < 0) { line = __LINE__; goto error_hndl; }
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}
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/* Computation loop */
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|
/*
|
|
For each of the remote nodes:
|
|
- post irecv for block (r-1)
|
|
- send block (r)
|
|
- in loop for every step k = 2 .. n
|
|
- post irecv for block (r + n - k) % n
|
|
- wait on block (r + n - k + 1) % n to arrive
|
|
- compute on block (r + n - k + 1) % n
|
|
- send block (r + n - k + 1) % n
|
|
- wait on block (r + 1)
|
|
- compute on block (r + 1)
|
|
- send block (r + 1) to rank (r + 1)
|
|
Note that for send operations and computation we must compute the exact
|
|
block size.
|
|
*/
|
|
sendto = (rank + 1) % size;
|
|
recvfrom = (rank + size - 1) % size;
|
|
|
|
inbi = 0;
|
|
tmpsend = ((char*)rbuf) + rank * realsegsize;
|
|
/* Initialize first receive from the neighbor on the left */
|
|
ret = MCA_PML_CALL(irecv(inbuf[inbi], maxsegcount, dtype, recvfrom,
|
|
MCA_COLL_BASE_TAG_ALLREDUCE, comm, &reqs[inbi]));
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
|
|
/* Send first block to the neighbor on the right */
|
|
blockcount = segcount;
|
|
if ((size - 1) == rank) { blockcount = lastsegcount; }
|
|
ret = MCA_PML_CALL(send(tmpsend, blockcount, dtype, sendto,
|
|
MCA_COLL_BASE_TAG_ALLREDUCE,
|
|
MCA_PML_BASE_SEND_STANDARD, comm));
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
|
|
|
|
for (k = 2; k < size; k++) {
|
|
const int prevblock = (rank + size - k + 1) % size;
|
|
|
|
inbi = inbi ^ 0x1;
|
|
|
|
/* Post irecv for the current block */
|
|
ret = MCA_PML_CALL(irecv(inbuf[inbi], maxsegcount, dtype, recvfrom,
|
|
MCA_COLL_BASE_TAG_ALLREDUCE, comm, &reqs[inbi]));
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
|
|
|
|
/* Wait on previous block to arrive */
|
|
ret = ompi_request_wait(&reqs[inbi ^ 0x1], MPI_STATUS_IGNORE);
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
|
|
|
|
/* Apply operation on previous block: result goes to rbuf
|
|
rbuf[prevblock] = inbuf[inbi ^ 0x1] (op) rbuf[prevblock]
|
|
*/
|
|
blockcount = segcount;
|
|
if ((size - 1) == prevblock) { blockcount = lastsegcount; }
|
|
tmprecv = ((char*)rbuf) + prevblock * realsegsize;
|
|
ompi_op_reduce(op, inbuf[inbi ^ 0x1], tmprecv, blockcount, dtype);
|
|
|
|
/* send previous block to sendto */
|
|
ret = MCA_PML_CALL(send(tmprecv, blockcount, dtype, sendto,
|
|
MCA_COLL_BASE_TAG_ALLREDUCE,
|
|
MCA_PML_BASE_SEND_STANDARD, comm));
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
|
|
}
|
|
|
|
/* Wait on the last block to arrive */
|
|
ret = ompi_request_wait(&reqs[inbi], MPI_STATUS_IGNORE);
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl; }
|
|
|
|
/* Apply operation on the last block (from neighbor (rank + 1)
|
|
rbuf[rank+1] = inbuf[inbi] (op) rbuf[rank + 1] */
|
|
blockcount = segcount;
|
|
if ((size - 1) == (rank + 1) % size) { blockcount = lastsegcount; }
|
|
tmprecv = ((char*)rbuf) + ((rank + 1) % size) * realsegsize;
|
|
ompi_op_reduce(op, inbuf[inbi], tmprecv, blockcount, dtype);
|
|
|
|
/* Distribution loop - variation of ring allgather */
|
|
for (k = 0; k < size - 1; k++) {
|
|
const int recvdatafrom = (rank + size - k) % size;
|
|
const int senddatafrom = (rank + 1 + size - k) % size;
|
|
|
|
blockcount = segcount;
|
|
if ((size - 1) == senddatafrom) blockcount = lastsegcount;
|
|
|
|
tmprecv = (char*)rbuf + recvdatafrom * realsegsize;
|
|
tmpsend = (char*)rbuf + senddatafrom * realsegsize;
|
|
|
|
ret = ompi_coll_tuned_sendrecv(tmpsend, blockcount, dtype, sendto,
|
|
MCA_COLL_BASE_TAG_ALLREDUCE,
|
|
tmprecv, maxsegcount, dtype, recvfrom,
|
|
MCA_COLL_BASE_TAG_ALLREDUCE,
|
|
comm, MPI_STATUS_IGNORE, rank);
|
|
if (MPI_SUCCESS != ret) { line = __LINE__; goto error_hndl;}
|
|
|
|
}
|
|
|
|
if (NULL != inbuf[0]) free(inbuf[0]);
|
|
if (NULL != inbuf[1]) free(inbuf[1]);
|
|
|
|
return MPI_SUCCESS;
|
|
|
|
error_hndl:
|
|
OPAL_OUTPUT((ompi_coll_tuned_stream, "%s:%4d\tRank %d Error occurred %d\n",
|
|
__FILE__, line, rank, ret));
|
|
if (NULL != inbuf[0]) free(inbuf[0]);
|
|
if (NULL != inbuf[1]) free(inbuf[1]);
|
|
return ret;
|
|
}
|
|
|
|
/*
|
|
* Linear functions are copied from the BASIC coll module
|
|
* they do not segment the message and are simple implementations
|
|
* but for some small number of nodes and/or small data sizes they
|
|
* are just as fast as tuned/tree based segmenting operations
|
|
* and as such may be selected by the decision functions
|
|
* These are copied into this module due to the way we select modules
|
|
* in V1. i.e. in V2 we will handle this differently and so will not
|
|
* have to duplicate code.
|
|
* GEF Oct05 after asking Jeff.
|
|
*/
|
|
|
|
/* copied function (with appropriate renaming) starts here */
|
|
|
|
|
|
/*
|
|
* allreduce_intra
|
|
*
|
|
* Function: - allreduce using other MPI collectives
|
|
* Accepts: - same as MPI_Allreduce()
|
|
* Returns: - MPI_SUCCESS or error code
|
|
*/
|
|
int
|
|
ompi_coll_tuned_allreduce_intra_basic_linear(void *sbuf, void *rbuf, int count,
|
|
struct ompi_datatype_t *dtype,
|
|
struct ompi_op_t *op,
|
|
struct ompi_communicator_t *comm)
|
|
{
|
|
int err;
|
|
int rank;
|
|
|
|
rank = ompi_comm_rank(comm);
|
|
|
|
OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:allreduce_intra_basic_linear rank %d", rank));
|
|
|
|
/* Reduce to 0 and broadcast. */
|
|
|
|
if (MPI_IN_PLACE == sbuf) {
|
|
if (0 == ompi_comm_rank(comm)) {
|
|
err = ompi_coll_tuned_reduce_intra_basic_linear (MPI_IN_PLACE, rbuf, count, dtype, op, 0, comm);
|
|
} else {
|
|
err = ompi_coll_tuned_reduce_intra_basic_linear(rbuf, NULL, count, dtype, op, 0, comm);
|
|
}
|
|
} else {
|
|
err = ompi_coll_tuned_reduce_intra_basic_linear(sbuf, rbuf, count, dtype, op, 0, comm);
|
|
}
|
|
if (MPI_SUCCESS != err) {
|
|
return err;
|
|
}
|
|
|
|
return ompi_coll_tuned_bcast_intra_basic_linear(rbuf, count, dtype, 0, comm);
|
|
}
|
|
|
|
|
|
/* copied function (with appropriate renaming) ends here */
|
|
|
|
/* The following are used by dynamic and forced rules */
|
|
|
|
/* publish details of each algorithm and if its forced/fixed/locked in */
|
|
/* as you add methods/algorithms you must update this and the query/map routines */
|
|
|
|
/* this routine is called by the component only */
|
|
/* this makes sure that the mca parameters are set to their initial values and perms */
|
|
/* module does not call this they call the forced_getvalues routine instead */
|
|
|
|
int ompi_coll_tuned_allreduce_intra_check_forced_init (coll_tuned_force_algorithm_mca_param_indices_t *mca_param_indices)
|
|
{
|
|
int rc, max_alg = 4, requested_alg;
|
|
|
|
ompi_coll_tuned_forced_max_algorithms[ALLREDUCE] = max_alg;
|
|
|
|
rc = mca_base_param_reg_int (&mca_coll_tuned_component.super.collm_version,
|
|
"allreduce_algorithm_count",
|
|
"Number of allreduce algorithms available",
|
|
false, true, max_alg, NULL);
|
|
|
|
mca_param_indices->algorithm_param_index
|
|
= mca_base_param_reg_int( &mca_coll_tuned_component.super.collm_version,
|
|
"allreduce_algorithm",
|
|
"Which allreduce algorithm is used. Can be locked down to any of: 0 ignore, 1 basic linear, 2 nonoverlapping (tuned reduce + tuned bcast), 3 recursive doubling, 4 ring",
|
|
false, false, 0, NULL);
|
|
mca_base_param_lookup_int( mca_param_indices->algorithm_param_index, &(requested_alg));
|
|
if( requested_alg > max_alg ) {
|
|
if( 0 == ompi_comm_rank( MPI_COMM_WORLD ) ) {
|
|
opal_output( 0, "Allreduce algorithm #%d is not available (range [0..%d]). Switching back to ignore(0)\n",
|
|
requested_alg, max_alg );
|
|
}
|
|
mca_base_param_set_int( mca_param_indices->algorithm_param_index, 0);
|
|
}
|
|
|
|
mca_param_indices->segsize_param_index
|
|
= mca_base_param_reg_int( &mca_coll_tuned_component.super.collm_version,
|
|
"allreduce_algorithm_segmentsize",
|
|
"Segment size in bytes used by default for allreduce algorithms. Only has meaning if algorithm is forced and supports segmenting. 0 bytes means no segmentation.",
|
|
false, false, 0, NULL);
|
|
|
|
mca_param_indices->tree_fanout_param_index
|
|
= mca_base_param_reg_int( &mca_coll_tuned_component.super.collm_version,
|
|
"allreduce_algorithm_tree_fanout",
|
|
"Fanout for n-tree used for allreduce algorithms. Only has meaning if algorithm is forced and supports n-tree topo based operation.",
|
|
false, false, ompi_coll_tuned_init_tree_fanout, /* get system wide default */
|
|
NULL);
|
|
|
|
mca_param_indices->chain_fanout_param_index
|
|
= mca_base_param_reg_int( &mca_coll_tuned_component.super.collm_version,
|
|
"allreduce_algorithm_chain_fanout",
|
|
"Fanout for chains used for allreduce algorithms. Only has meaning if algorithm is forced and supports chain topo based operation.",
|
|
false, false,
|
|
ompi_coll_tuned_init_chain_fanout, /* get system wide default */
|
|
NULL);
|
|
|
|
return (MPI_SUCCESS);
|
|
}
|
|
|
|
|
|
int ompi_coll_tuned_allreduce_intra_do_forced(void *sbuf, void *rbuf, int count,
|
|
struct ompi_datatype_t *dtype,
|
|
struct ompi_op_t *op,
|
|
struct ompi_communicator_t *comm)
|
|
{
|
|
OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:allreduce_intra_do_forced selected algorithm %d, segment size %d",
|
|
comm->c_coll_selected_data->user_forced[ALLREDUCE].algorithm,
|
|
comm->c_coll_selected_data->user_forced[ALLREDUCE].segsize));
|
|
|
|
switch (comm->c_coll_selected_data->user_forced[ALLREDUCE].algorithm) {
|
|
case (0): return ompi_coll_tuned_allreduce_intra_dec_fixed (sbuf, rbuf, count, dtype, op, comm);
|
|
case (1): return ompi_coll_tuned_allreduce_intra_basic_linear (sbuf, rbuf, count, dtype, op, comm);
|
|
case (2): return ompi_coll_tuned_allreduce_intra_nonoverlapping (sbuf, rbuf, count, dtype, op, comm);
|
|
case (3): return ompi_coll_tuned_allreduce_intra_recursivedoubling (sbuf, rbuf, count, dtype, op, comm);
|
|
case (4): return ompi_coll_tuned_allreduce_intra_ring (sbuf, rbuf, count, dtype, op, comm);
|
|
default:
|
|
OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:allreduce_intra_do_forced attempt to select algorithm %d when only 0-%d is valid?",
|
|
comm->c_coll_selected_data->user_forced[ALLREDUCE].algorithm,
|
|
ompi_coll_tuned_forced_max_algorithms[ALLREDUCE]));
|
|
return (MPI_ERR_ARG);
|
|
} /* switch */
|
|
|
|
}
|
|
|
|
|
|
int ompi_coll_tuned_allreduce_intra_do_this(void *sbuf, void *rbuf, int count,
|
|
struct ompi_datatype_t *dtype,
|
|
struct ompi_op_t *op,
|
|
struct ompi_communicator_t *comm,
|
|
int algorithm, int faninout, int segsize)
|
|
{
|
|
OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:allreduce_intra_do_this algorithm %d topo fan in/out %d segsize %d",
|
|
algorithm, faninout, segsize));
|
|
|
|
switch (algorithm) {
|
|
case (0): return ompi_coll_tuned_allreduce_intra_dec_fixed (sbuf, rbuf, count, dtype, op, comm);
|
|
case (1): return ompi_coll_tuned_allreduce_intra_basic_linear (sbuf, rbuf, count, dtype, op, comm);
|
|
case (2): return ompi_coll_tuned_allreduce_intra_nonoverlapping (sbuf, rbuf, count, dtype, op, comm);
|
|
case (3): return ompi_coll_tuned_allreduce_intra_recursivedoubling (sbuf, rbuf, count, dtype, op, comm);
|
|
case (4): return ompi_coll_tuned_allreduce_intra_ring (sbuf, rbuf, count, dtype, op, comm);
|
|
default:
|
|
OPAL_OUTPUT((ompi_coll_tuned_stream,"coll:tuned:allreduce_intra_do_this attempt to select algorithm %d when only 0-%d is valid?",
|
|
algorithm, ompi_coll_tuned_forced_max_algorithms[ALLREDUCE]));
|
|
return (MPI_ERR_ARG);
|
|
} /* switch */
|
|
|
|
}
|
|
|