/* * Copyright (c) 2007-2008 UT-Battelle, LLC * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ /** @file */ #include "ompi_config.h" #include "ompi/constants.h" #include "coll_sm2.h" #include "ompi/op/op.h" #include "ompi/datatype/datatype.h" #include "ompi/communicator/communicator.h" /** * Shared memory blocking allreduce. */ static int mca_coll_sm2_allreduce_intra_fanin_fanout(void *sbuf, void *rbuf, int count, struct ompi_datatype_t *dtype, struct ompi_op_t *op, struct ompi_communicator_t *comm, struct mca_coll_base_module_1_1_0_t *module) { /* local variables */ int rc=OMPI_SUCCESS,n_dts_per_buffer,n_data_segments,stripe_number; int my_rank, child_rank, child, n_parents, n_children; int my_fanin_parent,count_processed,count_this_stripe; int my_fanout_parent; size_t message_extent,dt_extent,ctl_size,len_data_buffer; long long tag; volatile char * sm_buffer; volatile char * my_data_pointer; volatile char * child_data_pointer; volatile char * parent_data_pointer; char *my_base_temp_pointer; volatile char * child_base_temp_pointer; volatile char * parent_base_temp_pointer; mca_coll_sm2_nb_request_process_shared_mem_t *my_ctl_pointer; volatile mca_coll_sm2_nb_request_process_shared_mem_t * child_ctl_pointer; volatile mca_coll_sm2_nb_request_process_shared_mem_t * parent_ctl_pointer; mca_coll_sm2_module_t *sm_module; tree_node_t *my_reduction_node, *my_fanout_read_tree; sm_module=(mca_coll_sm2_module_t *) module; /* get unique tag for this collective - assume only one collective * per communicator at a given time, so no locking needed * for atomic update of the tag */ sm_module->collective_tag++; tag=sm_module->collective_tag; /* get size of data needed - same layout as user data, so that * we can apply the reudction routines directly on these buffers */ rc=ompi_ddt_type_size(dtype, &dt_extent); if( OMPI_SUCCESS != rc ) { goto Error; } message_extent=dt_extent*count; /* lenght of control and data regions */ ctl_size=sm_module->ctl_memory_per_proc_per_segment; len_data_buffer=sm_module->data_memory_per_proc_per_segment; /* number of data types copies that the scratch buffer can hold */ n_dts_per_buffer=((int) len_data_buffer)/dt_extent; if ( 0 == n_dts_per_buffer ) { rc=OMPI_ERROR; goto Error; } /* compute number of stripes needed to process this collective */ n_data_segments=(count+n_dts_per_buffer -1 ) / n_dts_per_buffer ; /* get my node for the reduction tree */ my_rank=ompi_comm_rank(comm); my_reduction_node=&(sm_module->reduction_tree[my_rank]); my_fanout_read_tree=&(sm_module->fanout_read_tree[my_rank]); n_children=my_reduction_node->n_children; n_parents=my_reduction_node->n_parents; my_fanin_parent=my_reduction_node->parent_rank; my_fanout_parent=my_fanout_read_tree->parent_rank; count_processed=0; /* get a pointer to the shared-memory working buffer */ /* NOTE: starting with a rather synchronous approach */ for( stripe_number=0 ; stripe_number < n_data_segments ; stripe_number++ ) { sm_buffer=alloc_sm2_shared_buffer(sm_module); if( NULL == sm_buffer) { rc=OMPI_ERR_OUT_OF_RESOURCE; goto Error; } /* get number of elements to process in this stripe */ count_this_stripe=n_dts_per_buffer; if( count_processed + count_this_stripe > count ) count_this_stripe=count-count_processed; /* get base address to "my" memory segment */ my_base_temp_pointer=(char *) ((char *)sm_buffer+sm_module->sm_buffer_mgmt_barrier_tree.my_rank* sm_module->segement_size_per_process); /* offset to data segment */ my_data_pointer=my_base_temp_pointer+ctl_size; my_ctl_pointer=(mca_coll_sm2_nb_request_process_shared_mem_t *) my_base_temp_pointer; /* * Fan into root phase */ /* copy segment into shared buffer - later on will optimize to * eliminate extra copies. */ rc=ompi_ddt_copy_content_same_ddt(dtype, count_this_stripe, (char *)my_data_pointer, (char *)((char *)sbuf+dt_extent*count_processed)); if( 0 != rc ) { return OMPI_ERROR; } /* * Wait on children, and apply op to their data */ for( child=0 ; child < n_children ; child++ ) { child_rank=my_reduction_node->children_ranks[child]; /* get base address of child process */ child_base_temp_pointer=(char *) ((char *)sm_buffer+child_rank* sm_module->segement_size_per_process); child_data_pointer=child_base_temp_pointer+ctl_size; child_ctl_pointer= ( mca_coll_sm2_nb_request_process_shared_mem_t * volatile) child_base_temp_pointer; /* wait until child flag is set */ while(! ( (child_ctl_pointer->flag == tag) & (child_ctl_pointer->index== stripe_number) ) ) { /* Note: Actually need to make progress here */ ; } /* apply collective operation */ ompi_op_reduce(op,(void *)child_data_pointer, (void *)my_data_pointer, count_this_stripe,dtype); } /* end child loop */ /* set memory barriet to make sure data is in main memory before * the completion flgas are set. */ MB(); /* * Signal parent that data is ready */ my_ctl_pointer->flag=tag; my_ctl_pointer->index=stripe_number; /* * Fan out from root - let the memory copies at each * stage help reduce memory contention. */ if( 0 == my_fanout_read_tree->n_parents ) { /* I am the root - so copy signal children, and then * start reading */ MB(); my_ctl_pointer->flag=-tag; /* copy data to user supplied buffer */ rc=ompi_ddt_copy_content_same_ddt(dtype, count_this_stripe, (char *)((char *)rbuf+dt_extent*count_processed), (char *)my_data_pointer); if( 0 != rc ) { return OMPI_ERROR; } } else { parent_base_temp_pointer=(char *) ((char *)sm_buffer+my_fanout_parent* sm_module->segement_size_per_process); parent_data_pointer=(volatile char *) ((char *)parent_base_temp_pointer+ctl_size); parent_ctl_pointer=(volatile mca_coll_sm2_nb_request_process_shared_mem_t *) parent_base_temp_pointer; child_ctl_pointer= (volatile mca_coll_sm2_nb_request_process_shared_mem_t *) parent_data_pointer; /* * wait on Parent to signal that data is ready */ while(! ( (parent_ctl_pointer->flag == -tag) & (parent_ctl_pointer->index== stripe_number) ) ) { /* Note: Actually need to make progress here */ ; } /* copy the data to my shared buffer, for access by children */ rc=ompi_ddt_copy_content_same_ddt(dtype, count_this_stripe, (char *)my_data_pointer,(char *)parent_data_pointer); if( 0 != rc ) { return OMPI_ERROR; } /* set memory barriet to make sure data is in main memory before * the completion flgas are set. */ MB(); /* signal children that they may read the result data */ my_ctl_pointer->flag=-tag; /* copy data to user supplied buffer */ rc=ompi_ddt_copy_content_same_ddt(dtype, count_this_stripe, (char *)rbuf+dt_extent*count_processed, (char *)my_data_pointer); if( 0 != rc ) { return OMPI_ERROR; } } /* "free" the shared-memory working buffer */ rc=free_sm2_shared_buffer(sm_module); if( OMPI_SUCCESS != rc ) { goto Error; } /* update the count of elements processed */ count_processed+=count_this_stripe; } /* return */ return rc; Error: return rc; } /** * Shared memory blocking allreduce. */ int mca_coll_sm2_allreduce_intra(void *sbuf, void *rbuf, int count, struct ompi_datatype_t *dtype, struct ompi_op_t *op, struct ompi_communicator_t *comm, struct mca_coll_base_module_1_1_0_t *module) { /* local variables */ int rc; if( 0 != (op->o_flags & OMPI_OP_FLAGS_COMMUTE)) { /* Commutative Operation */ rc= mca_coll_sm2_allreduce_intra_fanin_fanout(sbuf, rbuf, count, dtype, op, comm, module); if( OMPI_SUCCESS != rc ) { goto Error; } } else { /* Non-Commutative Operation */ rc= mca_coll_sm2_allreduce_intra_fanin_fanout(sbuf, rbuf, count, dtype, op, comm, module); if( OMPI_SUCCESS != rc ) { goto Error; } } return OMPI_SUCCESS; Error: return rc; }