from benchmarks.communication.utils import * from benchmarks.communication.constants import * import time def timed_pt2pt(input, args): if args.dist == 'torch': import torch.distributed as dist elif args.dist == 'deepspeed': import deepspeed.comm as dist sync_all() # Warmups, establish connections, etc. for i in range(args.warmups): if dist.get_rank() == 0: if args.async_op: dist.isend(input, 1) else: dist.send(input, 1) if dist.get_rank() == 1: if args.async_op: dist.irecv(input, src=0) else: dist.recv(input, src=0) sync_all() # time the actual comm op trials times and average it pre = time.perf_counter() for i in range(args.trials): if dist.get_rank() == 0: if args.async_op: dist.isend(input, 1) else: dist.send(input, 1) if dist.get_rank() == 1: if args.async_op: dist.irecv(input, src=0) else: dist.recv(input, src=0) sync_all() duration = time.perf_counter() - pre # maintain and clean performance data avg_duration = duration / args.trials size = input.element_size() * input.nelement() n = dist.get_world_size() tput, busbw = get_bw('pt2pt', size, avg_duration, args) tput_str, busbw_str, duration_str = get_metric_strings(args, tput, busbw, avg_duration) desc = f'{input.nelement()}x{input.element_size()}' if not args.raw: size = convert_size(size) print_rank_0( f"{size:<20} {desc:25s} {duration_str:20s} {tput_str:20s} {busbw_str:20s}") def run_pt2pt(local_rank, args): if args.dist == 'torch': import torch.distributed as dist elif args.dist == 'deepspeed': import deepspeed.comm as dist # Prepare benchmark header print_header(args, 'pt2pt') global_rank = dist.get_rank() world_size = dist.get_world_size() if args.scan: # Create list of message sizes M_LIST = [] for x in (2**p for p in range(1, args.maxsize)): M_LIST.append(x) sync_all() # loop over various tensor sizes for M in M_LIST: global_rank = dist.get_rank() try: mat = torch.ones(world_size, M, dtype=getattr(torch, args.dtype)).cuda(local_rank) sync_all() input = ((mat.mul_(float(global_rank))).view(-1)) except RuntimeError as e: if 'out of memory' in str(e): if dist.get_rank() == 0: print('WARNING: Ran out of GPU memory. Exiting comm op.') sync_all() break sync_all() timed_pt2pt(input, args) else: # Send the biggest message size our GPUs can fit. If you're facing OOM errors, reduce the mem_factor # Don't need output tensor, so double mem_factor elements_per_gpu = max_numel(comm_op='pt2pt', dtype=getattr(torch, args.dtype), mem_factor=args.mem_factor * 2, local_rank=local_rank, args=args) try: mat = torch.ones(elements_per_gpu, dtype=getattr(torch, args.dtype)).cuda(local_rank) input = ((mat.mul_(float(global_rank))).view(-1)) except RuntimeError as e: if 'out of memory' in str(e): if dist.get_rank() == 0: print( 'WARNING: Ran out of GPU memory. Try to reduce the --mem-factor argument!' ) sync_all() return sync_all() timed_pt2pt(input, args) if __name__ == "__main__": args = benchmark_parser().parse_args() rank = args.local_rank init_processes(local_rank=rank, args=args) run_pt2pt(local_rank=rank, args=args)