/* -*- Mode: C; c-basic-offset:2 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2006 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2006 The Technical University of Chemnitz. All * rights reserved. * Copyright (c) 2014 Research Organization for Information Science * and Technology (RIST). All rights reserved. * Copyright (c) 2015 Los Alamos National Security, LLC. All rights * reserved. * * Author(s): Torsten Hoefler * */ #include "nbc_internal.h" static inline int bcast_sched_binomial(int rank, int p, int root, NBC_Schedule *schedule, void *buffer, int count, MPI_Datatype datatype); static inline int bcast_sched_linear(int rank, int p, int root, NBC_Schedule *schedule, void *buffer, int count, MPI_Datatype datatype); static inline int bcast_sched_chain(int rank, int p, int root, NBC_Schedule *schedule, void *buffer, int count, MPI_Datatype datatype, int fragsize, int size); #ifdef NBC_CACHE_SCHEDULE /* tree comparison function for schedule cache */ int NBC_Bcast_args_compare(NBC_Bcast_args *a, NBC_Bcast_args *b, void *param) { if ((a->buffer == b->buffer) && (a->count == b->count) && (a->datatype == b->datatype) && (a->root == b->root) ) { return 0; } if( a->buffer < b->buffer ) { return -1; } return 1; } #endif int ompi_coll_libnbc_ibcast(void *buffer, int count, MPI_Datatype datatype, int root, struct ompi_communicator_t *comm, ompi_request_t ** request, struct mca_coll_base_module_2_1_0_t *module) { int rank, p, res, size, segsize; NBC_Schedule *schedule; #ifdef NBC_CACHE_SCHEDULE NBC_Bcast_args *args, *found, search; #endif enum { NBC_BCAST_LINEAR, NBC_BCAST_BINOMIAL, NBC_BCAST_CHAIN } alg; NBC_Handle *handle; ompi_coll_libnbc_module_t *libnbc_module = (ompi_coll_libnbc_module_t*) module; rank = ompi_comm_rank (comm); p = ompi_comm_size (comm); res = MPI_Type_size(datatype, &size); if (MPI_SUCCESS != res) { NBC_Error("MPI Error in MPI_Type_size() (%i)", res); return res; } segsize = 16384; /* algorithm selection */ if (p <= 4) { alg = NBC_BCAST_LINEAR; } else if (size * count < 65536) { alg = NBC_BCAST_BINOMIAL; } else if (size * count < 524288) { alg = NBC_BCAST_CHAIN; segsize = 8192; } else { alg = NBC_BCAST_CHAIN; segsize = 32768; } #ifdef NBC_CACHE_SCHEDULE /* search schedule in communicator specific tree */ search.buffer = buffer; search.count = count; search.datatype = datatype; search.root = root; found = (NBC_Bcast_args *) hb_tree_search ((hb_tree *) libnbc_module->NBC_Dict[NBC_BCAST], &search); if (NULL == found) { #endif schedule = OBJ_NEW(NBC_Schedule); if (OPAL_UNLIKELY(NULL == schedule)) { return OMPI_ERR_OUT_OF_RESOURCE; } switch(alg) { case NBC_BCAST_LINEAR: res = bcast_sched_linear(rank, p, root, schedule, buffer, count, datatype); break; case NBC_BCAST_BINOMIAL: res = bcast_sched_binomial(rank, p, root, schedule, buffer, count, datatype); break; case NBC_BCAST_CHAIN: res = bcast_sched_chain(rank, p, root, schedule, buffer, count, datatype, segsize, size); break; } if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { OBJ_RELEASE(schedule); return res; } res = NBC_Sched_commit (schedule); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { OBJ_RELEASE(schedule); return res; } #ifdef NBC_CACHE_SCHEDULE /* save schedule to tree */ args = (NBC_Bcast_args *) malloc (sizeof (args)); if (NULL != args) { args->buffer = buffer; args->count = count; args->datatype = datatype; args->root = root; args->schedule = schedule; res = hb_tree_insert ((hb_tree *) libnbc_module->NBC_Dict[NBC_BCAST], args, args, 0); if (0 == res) { OBJ_RETAIN (schedule); /* increase number of elements for A2A */ if (++libnbc_module->NBC_Dict_size[NBC_BCAST] > NBC_SCHED_DICT_UPPER) { NBC_SchedCache_dictwipe ((hb_tree *) libnbc_module->NBC_Dict[NBC_BCAST], &libnbc_module->NBC_Dict_size[NBC_BCAST]); } } else { NBC_Error("error in dict_insert() (%i)", res); free (args); } } } else { /* found schedule */ schedule = found->schedule; OBJ_RETAIN(schedule); } #endif res = NBC_Init_handle (comm, &handle, libnbc_module); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { OBJ_RELEASE(schedule); return res; } res = NBC_Start (handle, schedule); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { NBC_Return_handle (handle); return res; } *request = (ompi_request_t *) handle; return OMPI_SUCCESS; } /* better binomial bcast * working principle: * - each node gets a virtual rank vrank * - the 'root' node get vrank 0 * - node 0 gets the vrank of the 'root' * - all other ranks stay identical (they do not matter) * * Algorithm: * - each node with vrank > 2^r and vrank < 2^r+1 receives from node * vrank - 2^r (vrank=1 receives from 0, vrank 0 receives never) * - each node sends each round r to node vrank + 2^r * - a node stops to send if 2^r > commsize */ #define RANK2VRANK(rank, vrank, root) \ { \ vrank = rank; \ if (rank == 0) vrank = root; \ if (rank == root) vrank = 0; \ } #define VRANK2RANK(rank, vrank, root) \ { \ rank = vrank; \ if (vrank == 0) rank = root; \ if (vrank == root) rank = 0; \ } static inline int bcast_sched_binomial(int rank, int p, int root, NBC_Schedule *schedule, void *buffer, int count, MPI_Datatype datatype) { int maxr, vrank, peer, res; maxr = (int)ceil((log((double)p)/LOG2)); RANK2VRANK(rank, vrank, root); /* receive from the right hosts */ if (vrank != 0) { for (int r = 0 ; r < maxr ; ++r) { if ((vrank >= (1 << r)) && (vrank < (1 << (r + 1)))) { VRANK2RANK(peer, vrank - (1 << r), root); res = NBC_Sched_recv (buffer, false, count, datatype, peer, schedule, false); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } } res = NBC_Sched_barrier (schedule); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } /* now send to the right hosts */ for (int r = 0 ; r < maxr ; ++r) { if (((vrank + (1 << r) < p) && (vrank < (1 << r))) || (vrank == 0)) { VRANK2RANK(peer, vrank + (1 << r), root); res = NBC_Sched_send (buffer, false, count, datatype, peer, schedule, false); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } } return OMPI_SUCCESS; } /* simple linear MPI_Ibcast */ static inline int bcast_sched_linear(int rank, int p, int root, NBC_Schedule *schedule, void *buffer, int count, MPI_Datatype datatype) { int res; /* send to all others */ if(rank == root) { for (int peer = 0 ; peer < p ; ++peer) { if (peer != root) { /* send msg to peer */ res = NBC_Sched_send (buffer, false, count, datatype, peer, schedule, false); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } } } else { /* recv msg from root */ res = NBC_Sched_recv (buffer, false, count, datatype, root, schedule, false); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } return OMPI_SUCCESS; } /* simple chained MPI_Ibcast */ static inline int bcast_sched_chain(int rank, int p, int root, NBC_Schedule *schedule, void *buffer, int count, MPI_Datatype datatype, int fragsize, int size) { int res, vrank, rpeer, speer, numfrag, fragcount, thiscount; MPI_Aint ext; char *buf; RANK2VRANK(rank, vrank, root); VRANK2RANK(rpeer, vrank-1, root); VRANK2RANK(speer, vrank+1, root); res = MPI_Type_extent(datatype, &ext); if (MPI_SUCCESS != res) { NBC_Error("MPI Error in MPI_Type_extent() (%i)", res); return res; } if (count == 0) { return OMPI_SUCCESS; } numfrag = count * size/fragsize; if ((count * size) % fragsize != 0) { numfrag++; } fragcount = count/numfrag; for (int fragnum = 0 ; fragnum < numfrag ; ++fragnum) { buf = (char *) buffer + fragnum * fragcount * ext; thiscount = fragcount; if (fragnum == numfrag-1) { /* last fragment may not be full */ thiscount = count - fragcount * fragnum; } /* root does not receive */ if (vrank != 0) { res = NBC_Sched_recv (buf, false, thiscount, datatype, rpeer, schedule, true); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } /* last rank does not send */ if (vrank != p-1) { res = NBC_Sched_send (buf, false, thiscount, datatype, speer, schedule, false); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } /* this barrier here seems awaward but isn't!!!! */ if (vrank == 0) { res = NBC_Sched_barrier (schedule); if (OPAL_UNLIKELY(OMPI_SUCCESS != res)) { return res; } } } } return OMPI_SUCCESS; }