# Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import argparse import cProfile import time import os import traceback import numpy as np import paddle.fluid as fluid import paddle.fluid.core as core import paddle.fluid.profiler as profiler import paddle.fluid.transpiler.distribute_transpiler as distribute_transpiler from args import * def append_nccl2_prepare(trainer_id, startup_prog): if trainer_id >= 0: # append gen_nccl_id at the end of startup program trainer_id = int(os.getenv("PADDLE_TRAINER_ID")) port = os.getenv("PADDLE_PSERVER_PORT") worker_ips = os.getenv("PADDLE_TRAINER_IPS") worker_endpoints = [] for ip in worker_ips.split(","): worker_endpoints.append(':'.join([ip, port])) num_trainers = len(worker_endpoints) current_endpoint = os.getenv("PADDLE_CURRENT_IP") + ":" + port worker_endpoints.remove(current_endpoint) nccl_id_var = startup_prog.global_block().create_var( name="NCCLID", persistable=True, type=fluid.core.VarDesc.VarType.RAW) startup_prog.global_block().append_op( type="gen_nccl_id", inputs={}, outputs={"NCCLID": nccl_id_var}, attrs={ "endpoint": current_endpoint, "endpoint_list": worker_endpoints, "trainer_id": trainer_id }) return nccl_id_var, num_trainers, trainer_id else: raise Exception("must set positive PADDLE_TRAINER_ID env variables for " "nccl-based dist train.") def dist_transpile(trainer_id, args, train_prog, startup_prog): if trainer_id < 0: return None, None # the port of all pservers, needed by both trainer and pserver port = os.getenv("PADDLE_PSERVER_PORT", "6174") # comma separated ips of all pservers, needed by trainer and # pserver pserver_ips = os.getenv("PADDLE_PSERVER_IPS", "") eplist = [] for ip in pserver_ips.split(","): eplist.append(':'.join([ip, port])) pserver_endpoints = ",".join(eplist) # total number of workers/trainers in the job, needed by # trainer and pserver trainers = int(os.getenv("PADDLE_TRAINERS")) # the IP of the local machine, needed by pserver only current_endpoint = os.getenv("PADDLE_CURRENT_IP", "") + ":" + port # the role, should be either PSERVER or TRAINER training_role = os.getenv("PADDLE_TRAINING_ROLE") config = distribute_transpiler.DistributeTranspilerConfig() config.slice_var_up = not args.no_split_var t = distribute_transpiler.DistributeTranspiler(config=config) t.transpile( trainer_id, # NOTE: *MUST* use train_prog, for we are using with guard to # generate different program for train and test. program=train_prog, pservers=pserver_endpoints, trainers=trainers, sync_mode=not args.async_mode) if training_role == "PSERVER": pserver_program = t.get_pserver_program(current_endpoint) pserver_startup_program = t.get_startup_program( current_endpoint, pserver_program, startup_program=startup_prog) return pserver_program, pserver_startup_program elif training_role == "TRAINER": train_program = t.get_trainer_program() return train_program, startup_prog else: raise ValueError( 'PADDLE_TRAINING_ROLE environment variable must be either TRAINER or PSERVER' ) def test_parallel(exe, test_args, args, test_prog, feeder): acc_evaluators = [] for i in xrange(len(test_args[2])): acc_evaluators.append(fluid.metrics.Accuracy()) to_fetch = [v.name for v in test_args[2]] if args.use_reader_op: test_args[4].start() while True: try: acc_rets = exe.run(fetch_list=to_fetch) for i, e in enumerate(acc_evaluators): e.update( value=np.array(acc_rets[i]), weight=args.batch_size) except fluid.core.EOFException as eof: test_args[4].reset() break else: for batch_id, data in enumerate(test_args[3]()): acc_rets = exe.run(feed=feeder.feed(data), fetch_list=to_fetch) for i, e in enumerate(acc_evaluators): e.update(value=np.array(acc_rets[i]), weight=len(data)) return [e.eval() for e in acc_evaluators] # NOTE: only need to benchmark using parallelexe def train_parallel(train_args, test_args, args, train_prog, test_prog, startup_prog, nccl_id_var, num_trainers, trainer_id): over_all_start = time.time() place = core.CPUPlace() if args.device == 'CPU' else core.CUDAPlace(0) feeder = None if not args.use_reader_op: feed_var_list = [ var for var in train_prog.global_block().vars.itervalues() if var.is_data ] feeder = fluid.DataFeeder(feed_var_list, place) # generate fake: if args.use_fake_data: for var in feed_var_list: v = startup_prog.global_block()._clone_variable(var) var.persistable = True v.persistable = True real_shape = list(var.shape) real_shape[0] = args.batch_size / args.gpus startup_prog.global_block().append_op( outputs={"Out": v}, type="fill_constant", attrs={"shape": real_shape, "value": 1.0, "dtype": var.dtype}) if nccl_id_var and trainer_id == 0: #FIXME(wuyi): wait other trainer to start listening time.sleep(30) startup_exe = fluid.Executor(place) startup_exe.run(startup_prog) strategy = fluid.ExecutionStrategy() strategy.num_threads = args.cpus strategy.allow_op_delay = False avg_loss = train_args[0] if args.update_method == "pserver": # parameter server mode distributed training, merge # gradients on local server, do not initialize # ParallelExecutor with multi server all-reduce mode. num_trainers = 1 trainer_id = 0 exe = fluid.ParallelExecutor( True, avg_loss.name, main_program=train_prog, exec_strategy=strategy, num_trainers=num_trainers, trainer_id=trainer_id) if not args.no_test: if args.update_method == "pserver": test_scope = None else: # NOTE: use an empty scope to avoid test exe using NCCLID test_scope = fluid.Scope() test_exe = fluid.ParallelExecutor( True, main_program=test_prog, share_vars_from=exe) for pass_id in range(args.pass_num): num_samples = 0 iters = 0 start_time = time.time() if not args.use_reader_op: reader_generator = train_args[3]() #train_reader batch_id = 0 data = None if args.use_reader_op: train_args[4].start() while True: if not args.use_reader_op: data = next(reader_generator, None) if data == None: break if args.profile and batch_id == 5: profiler.start_profiler("All") profiler.reset_profiler() elif args.profile and batch_id == 10: print("profiling total time: ", time.time() - start_time) profiler.stop_profiler("total", "/tmp/profile_%d_pass%d" % (trainer_id, pass_id)) if iters == args.iterations: reader_generator.close() break if iters == args.skip_batch_num: start_time = time.time() num_samples = 0 fetch_list = [avg_loss.name] acc_name_list = [v.name for v in train_args[2]] fetch_list.extend(acc_name_list) if args.use_fake_data or args.use_reader_op: try: fetch_ret = exe.run(fetch_list) except fluid.core.EOFException as eof: break except fluid.core.EnforceNotMet as ex: traceback.print_exc() break else: fetch_ret = exe.run(fetch_list, feed=feeder.feed(data)) if args.use_reader_op: num_samples += args.batch_size * args.gpus else: num_samples += len(data) iters += 1 if batch_id % 1 == 0: fetched_data = [np.mean(np.array(d)) for d in fetch_ret] print("Pass %d, batch %d, loss %s, accucacys: %s" % (pass_id, batch_id, fetched_data[0], fetched_data[1:])) batch_id += 1 print_train_time(start_time, time.time(), num_samples) if args.use_reader_op: train_args[4].reset() # reset reader handle else: del reader_generator if not args.no_test and test_args[2]: test_feeder = None if not args.use_reader_op: test_feed_var_list = [ var for var in test_prog.global_block().vars.itervalues() if var.is_data ] test_feeder = fluid.DataFeeder(test_feed_var_list, place) test_ret = test_parallel(test_exe, test_args, args, test_prog, test_feeder) print("Pass: %d, Test Accuracy: %s\n" % (pass_id, [np.mean(np.array(v)) for v in test_ret])) print("total train time: ", time.time() - over_all_start) def print_arguments(args): vars(args)['use_nvprof'] = (vars(args)['use_nvprof'] and vars(args)['device'] == 'GPU') print('----------- Configuration Arguments -----------') for arg, value in sorted(vars(args).iteritems()): print('%s: %s' % (arg, value)) print('------------------------------------------------') def print_train_time(start_time, end_time, num_samples): train_elapsed = end_time - start_time examples_per_sec = num_samples / train_elapsed print('\nTotal examples: %d, total time: %.5f, %.5f examples/sed\n' % (num_samples, train_elapsed, examples_per_sec)) def print_paddle_envs(): print('----------- Configuration envs -----------') for k in os.environ: if "PADDLE_" in k: print "ENV %s:%s" % (k, os.environ[k]) print('------------------------------------------------') def main(): args = parse_args() print_arguments(args) print_paddle_envs() if args.no_random: fluid.default_startup_program().random_seed = 1 # the unique trainer id, starting from 0, needed by trainer # only nccl_id_var, num_trainers, trainer_id = ( None, 1, int(os.getenv("PADDLE_TRAINER_ID", "0"))) if args.use_cprof: pr = cProfile.Profile() pr.enable() model_def = __import__("models.%s" % args.model, fromlist=["models"]) train_prog = fluid.Program() test_prog = fluid.Program() startup_prog = fluid.Program() train_args = list(model_def.get_model(args, True, train_prog, startup_prog)) test_args = list(model_def.get_model(args, False, test_prog, startup_prog)) all_args = [train_args, test_args, args] if args.update_method == "pserver": train_prog, startup_prog = dist_transpile(trainer_id, args, train_prog, startup_prog) if not train_prog: raise Exception( "Must configure correct environments to run dist train.") all_args.extend([train_prog, test_prog, startup_prog]) if args.gpus > 1 and os.getenv("PADDLE_TRAINING_ROLE") == "TRAINER": all_args.extend([nccl_id_var, num_trainers, trainer_id]) train_parallel(*all_args) elif os.getenv("PADDLE_TRAINING_ROLE") == "PSERVER": # start pserver with Executor server_exe = fluid.Executor(fluid.CPUPlace()) server_exe.run(startup_prog) server_exe.run(train_prog) exit(0) # for other update methods, use default programs all_args.extend([train_prog, test_prog, startup_prog]) if args.update_method == "nccl2": nccl_id_var, num_trainers, trainer_id = append_nccl2_prepare( trainer_id, startup_prog) if args.device == "CPU": raise Exception("Only support GPU perf with parallel exe") all_args.extend([nccl_id_var, num_trainers, trainer_id]) train_parallel(*all_args) if __name__ == "__main__": main()