/* * Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2006 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include "coll_basic.h" #include #include "mpi.h" #include "opal/mca/base/mca_base_param.h" #include "ompi/mca/coll/coll.h" #include "ompi/mca/coll/base/base.h" #include "coll_basic.h" /* * Initial query function that is invoked during MPI_INIT, allowing * this component to disqualify itself if it doesn't support the * required level of thread support. */ int mca_coll_basic_init_query(bool enable_progress_threads, bool enable_mpi_threads) { /* Nothing to do */ return OMPI_SUCCESS; } /* * Invoked when there's a new communicator that has been created. * Look at the communicator and decide which set of functions and * priority we want to return. */ mca_coll_base_module_t * mca_coll_basic_comm_query(struct ompi_communicator_t *comm, int *priority) { int size; mca_coll_basic_module_t *basic_module; basic_module = OBJ_NEW(mca_coll_basic_module_t); if (NULL == basic_module) return NULL; *priority = mca_coll_basic_priority; /* Allocate the data that hangs off the communicator */ if (OMPI_COMM_IS_INTER(comm)) { size = ompi_comm_remote_size(comm); } else { size = ompi_comm_size(comm); } basic_module->mccb_num_reqs = size * 2; basic_module->mccb_reqs = (ompi_request_t**) malloc(sizeof(ompi_request_t *) * basic_module->mccb_num_reqs); /* Choose whether to use [intra|inter], and [linear|log]-based * algorithms. */ basic_module->super.coll_module_enable = mca_coll_basic_module_enable; basic_module->super.ft_event = mca_coll_basic_ft_event; if (OMPI_COMM_IS_INTER(comm)) { basic_module->super.coll_allgather = mca_coll_basic_allgather_inter; basic_module->super.coll_allgatherv = mca_coll_basic_allgatherv_inter; basic_module->super.coll_allreduce = mca_coll_basic_allreduce_inter; basic_module->super.coll_alltoall = mca_coll_basic_alltoall_inter; basic_module->super.coll_alltoallv = mca_coll_basic_alltoallv_inter; basic_module->super.coll_alltoallw = mca_coll_basic_alltoallw_inter; basic_module->super.coll_barrier = mca_coll_basic_barrier_inter_lin; basic_module->super.coll_bcast = mca_coll_basic_bcast_lin_inter; basic_module->super.coll_exscan = NULL; basic_module->super.coll_gather = mca_coll_basic_gather_inter; basic_module->super.coll_gatherv = mca_coll_basic_gatherv_inter; basic_module->super.coll_reduce = mca_coll_basic_reduce_lin_inter; basic_module->super.coll_reduce_scatter = mca_coll_basic_reduce_scatter_inter; basic_module->super.coll_scan = NULL; basic_module->super.coll_scatter = mca_coll_basic_scatter_inter; basic_module->super.coll_scatterv = mca_coll_basic_scatterv_inter; } else if (ompi_comm_size(comm) <= mca_coll_basic_crossover) { basic_module->super.coll_allgather = mca_coll_basic_allgather_intra; basic_module->super.coll_allgatherv = mca_coll_basic_allgatherv_intra; basic_module->super.coll_allreduce = mca_coll_basic_allreduce_intra; basic_module->super.coll_alltoall = mca_coll_basic_alltoall_intra; basic_module->super.coll_alltoallv = mca_coll_basic_alltoallv_intra; basic_module->super.coll_alltoallw = mca_coll_basic_alltoallw_intra; basic_module->super.coll_barrier = mca_coll_basic_barrier_intra_lin; basic_module->super.coll_bcast = mca_coll_basic_bcast_lin_intra; basic_module->super.coll_exscan = mca_coll_basic_exscan_intra; basic_module->super.coll_gather = mca_coll_basic_gather_intra; basic_module->super.coll_gatherv = mca_coll_basic_gatherv_intra; basic_module->super.coll_reduce = mca_coll_basic_reduce_lin_intra; basic_module->super.coll_reduce_scatter = mca_coll_basic_reduce_scatter_intra; basic_module->super.coll_scan = mca_coll_basic_scan_intra; basic_module->super.coll_scatter = mca_coll_basic_scatter_intra; basic_module->super.coll_scatterv = mca_coll_basic_scatterv_intra; } else { basic_module->super.coll_allgather = mca_coll_basic_allgather_intra; basic_module->super.coll_allgatherv = mca_coll_basic_allgatherv_intra; basic_module->super.coll_allreduce = mca_coll_basic_allreduce_intra; basic_module->super.coll_alltoall = mca_coll_basic_alltoall_intra; basic_module->super.coll_alltoallv = mca_coll_basic_alltoallv_intra; basic_module->super.coll_alltoallw = mca_coll_basic_alltoallw_intra; basic_module->super.coll_barrier = mca_coll_basic_barrier_intra_log; basic_module->super.coll_bcast = mca_coll_basic_bcast_log_intra; basic_module->super.coll_exscan = mca_coll_basic_exscan_intra; basic_module->super.coll_gather = mca_coll_basic_gather_intra; basic_module->super.coll_gatherv = mca_coll_basic_gatherv_intra; basic_module->super.coll_reduce = mca_coll_basic_reduce_log_intra; basic_module->super.coll_reduce_scatter = mca_coll_basic_reduce_scatter_intra; basic_module->super.coll_scan = mca_coll_basic_scan_intra; basic_module->super.coll_scatter = mca_coll_basic_scatter_intra; basic_module->super.coll_scatterv = mca_coll_basic_scatterv_intra; } return &(basic_module->super); } /* * Init module on the communicator */ int mca_coll_basic_module_enable(mca_coll_base_module_t *module, struct ompi_communicator_t *comm) { /* All done */ return OMPI_SUCCESS; } int mca_coll_basic_ft_event(int state) { if(OPAL_CRS_CHECKPOINT == state) { ; } else if(OPAL_CRS_CONTINUE == state) { ; } else if(OPAL_CRS_RESTART == state) { ; } else if(OPAL_CRS_TERM == state ) { ; } else { ; } return OMPI_SUCCESS; }