# Copyright (c) 2019 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. r""" fleetrun is a module that spawns multiple distributed process on each training node for gpu training and cpu training. Usage: In both of single node training or multiple node training, this module launch a process on each of the given gpu card or cpu machine. GPU training: 1. for single node training with all visible gpu cards: fleetrun your_training_py (arg1 arg2 and all others) 2. for single node training with [0,4) cards fleetrun --gpus="0,1,2,3" your_training_py (arg1 arg2 and all others) 3. for multiple node training such as two node:192.168.0.16, 192.168.0.17 on 192.168.0.16: fleetrun --ips="192.168.0.16,192.168.0.17" \ your_training_py (arg1 arg2 and all others) on 192.168.0.17: fleetrun --ips="192.168.0.16,192.168.0.17" \ your_training_py (arg1 arg2 and all others) CPU training: 1. for single node training with multi servers and workers: fleetrun --server_num=2 --worker_num=2 your_training_py (arg1 arg2 and all others) 2. for multiple node training such as two node:192.168.0.16, 192.168.0.17 \ with 2 servers and 4 workers. on 192.168.0.16: fleetrun --servers="192.168.0.16:6170,192.168.0.17:6170" \ --workers="192.168.0.16,192.168.0.17,192.168.0.16,192.168.0.17" \ your_training_py (arg1 arg2 and all others) on 192.168.0.17: fleetrun --servers="192.168.0.16:6170,192.168.0.17:6171" \ --workers="192.168.0.16,192.168.0.17,192.168.0.16,192.168.0.17" \ your_training_py (arg1 arg2 and all others) 3. use gloo backend for multiple node training such as two node:192.168.0.16, 192.168.0.17 \ with 2 servers and 4 workers. (workers should set port) on 192.168.0.16: fleetrun --servers="192.168.0.16:6170,192.168.0.17:6170" \ --workers="192.168.0.16:6171,192.168.0.17:6171,192.168.0.16:6172,192.168.0.17:6172" \ your_training_py (arg1 arg2 and all others) on 192.168.0.17: fleetrun --servers="192.168.0.16:6170,192.168.0.17:6170" \ --workers="192.168.0.16:6171,192.168.0.17:6171,192.168.0.16:6172,192.168.0.17:6172" \ your_training_py (arg1 arg2 and all others) """ import shutil import sys import tempfile import os import time import copy import pathlib from argparse import ArgumentParser, REMAINDER import paddle.fluid as fluid from paddle.distributed.fleet import launch_utils from paddle.distributed.fleet.launch_utils import ( get_host_name_ip, find_free_ports, logger, get_cluster, DeviceMode, start_local_trainers, direct_start, watch_local_trainers, terminate_local_procs, DistributeMode, ParameterServerLauncher, get_logger, check_backend, block_windows_and_macos) from paddle.distributed.fleet import cloud_utils from paddle.distributed.fleet import ascend_utils from paddle.distributed.fleet.elastic import enable_elastic, launch_elastic __all__ = [] def _print_arguments(args): print("----------- Configuration Arguments -----------") for arg, value in sorted(vars(args).items()): print("%s: %s" % (arg, value)) print("------------------------------------------------") def _parse_args(): """ Helper function parsing the command line options @retval ArgumentParser """ parser = ArgumentParser( description='''start paddle training using multi-process mode. see: http://www.paddlepaddle.org/documentation/docs/zh/1.6/user_guides/howto/training/cluster_howto.html#permalink-8--nccl2- ''') base_group = parser.add_argument_group("Base Parameters") base_group.add_argument( "--log_dir", type=str, default="log", help="The path for each process's log. Default --log_dir=log/") base_group.add_argument( "--backend", type=str, default=os.environ.get('PADDLE_DISTRI_BACKEND', 'auto'), help="Specifize the backend, can be gloo|nccl|bkcl|auto|hccl|heter. " "Default value is auto which perfers nccl or bkcl.") base_group.add_argument( "--nproc_per_node", type=int, default=None, help="The number of processes to launch on a node." "In gpu training, it should be less or equal to the gpus number of you system(or you set by --gpus). And so each process can" " bound to one or average number of gpus.") base_group.add_argument( "--run_mode", type=str, default=None, help="run mode of job, can be:collective/ps/ps-heter") if fluid.core.is_compiled_with_cuda(): base_group.add_argument( "--gpus", type=str, default=None, help="It's for gpu training." "For example:" "--gpus=\"0,1,2,3\" will launch four training processes each bound to one gpu." ) base_group.add_argument("--selected_gpus", dest="gpus") if fluid.core.is_compiled_with_xpu(): base_group.add_argument( "--xpus", type=str, default=None, help="It's for xpu training. For example: " "--xpus=\"0,1,2,3\" will launch four training processes each bound to one xpu." ) base_group.add_argument("--selected_xpus", dest="xpus") if fluid.core.is_compiled_with_npu(): base_group.add_argument( "--npus", type=str, default=None, help="It's for xpu training. For example: " "--npus=\"0,1,2,3\" will launch four training processes each bound to one npu." ) base_group.add_argument("--selected_npus", dest="npus") if fluid.core.is_compiled_with_mlu(): base_group.add_argument( "--mlus", type=str, default=None, help="It's for mlu training. For example: " "--mlus=\"0,1,2,3\" will launch four training processes each bound to one mlu." ) base_group.add_argument("--selected_mlus", dest="mlus") base_group.add_argument("training_script", type=str, help="The full path to the single GPU training " "program/script to be launched in parallel, " "followed by all the arguments for the " "training script") base_group.add_argument('training_script_args', nargs=REMAINDER) # Optional arguments for the launch helper # for collective collective_group = parser.add_argument_group("Collective Parameters") collective_group.add_argument( "--ips", type=str, default="127.0.0.1", help="Paddle cluster nodes ips, such as 192.168.0.16,192.168.0.17..") collective_group.add_argument( "--cluster_topo_path", type=str, default=None, help="A json format file will be stored in this path which is used" "to represent the cluster topology information for auto parallel.") collective_group.add_argument( "--rank_mapping_path", type=str, default=None, help="A json format file will be stored in this path which is used" "to map processes to machines for auto parallel.") collective_group.add_argument( "--enable_auto_mapping", type=bool, default=False, help="Set true to enable the lazy launch for auto-parallel scenario.") ps_group = parser.add_argument_group("Parameter-Server Parameters") # for parameter server ps_group.add_argument("--servers", type=str, default="", help="User defined servers ip:port") ps_group.add_argument("--workers", type=str, default="", help="User defined workers ip:port") ps_group.add_argument("--coordinators", type=str, default="", help="User defined coordinators ip:port") ps_group.add_argument( "--heter_workers", type=str, default="", help="User defined heter workers in each stage ip1:port1;ip2:port2") ps_group.add_argument( "--heter_devices", type=str, default="", help="User defined heter devices in each stage cpu;gpu;cpu") ps_group.add_argument("--worker_num", type=int, help="number of workers") ps_group.add_argument("--coordinator_num", type=int, help="number of coordinators") ps_group.add_argument("--server_num", type=int, help="number of servers") ps_group.add_argument("--heter_worker_num", type=str, help="number of heter_workers in each stage 1;2;3") ps_group.add_argument("--http_port", type=int, help="Gloo http Port") # parameter elastic mode elastic_group = parser.add_argument_group("Elastic Parameters") elastic_group.add_argument("--elastic_server", type=str, help="etcd server host:port") elastic_group.add_argument("--elastic_pre_hook", type=str, help="elastic pre_hook shell cmd") elastic_group.add_argument("--job_id", type=str, help="job unique id") elastic_group.add_argument("--np", type=int, help="job pod/node number") elastic_group.add_argument("--scale", type=int, default=0, help="scale np") elastic_group.add_argument("--host", type=str, help="bind host, default to POD_IP env") elastic_group.add_argument("--force", type=bool, default=False, help="update np force") known_args, _ = parser.parse_known_args() return known_args def get_cluster_from_args(args, device_mode, devices_per_proc): node_ips = [x.strip() for x in args.ips.split(',')] if len(node_ips) == 1: node_ip = node_ips[0] else: if args.host: node_ip = args.host else: _, node_ip = get_host_name_ip() assert node_ip in node_ips, "Can't find your local ip {%s} in node_ips: {%s}" \ % (node_ip, node_ips) node_rank = node_ips.index(node_ip) logger.debug("parsed from args: node_ips:{} node_ip:{} node_rank:{}".format( node_ips, node_ip, node_rank)) free_ports = None if not cloud_utils.use_paddlecloud() and len( node_ips) <= 1 and os.environ.get('FLAGS_START_PORT') is None: free_ports = find_free_ports(len(devices_per_proc)) if free_ports is not None: free_ports = list(free_ports) logger.info("find free ports:{}".format(free_ports)) else: start_port = 6070 if os.environ.get('FLAGS_START_PORT') is not None: start_port = int(os.environ.get('FLAGS_START_PORT')) free_ports = [ x for x in range(start_port, start_port + len(devices_per_proc)) ] trainer_endpoints = [] for ip in node_ips: trainer_endpoints.append(["%s:%d" % (ip, port) for port in free_ports]) return get_cluster(node_ips, node_ip, trainer_endpoints, device_mode, devices_per_proc) def cpuonly_check(args): if args.ips and len(args.ips.split(',')) > 1: raise RuntimeError( "CPUONLY launch only support single trainer, that is len(ips)=1, but got %s." % args.ips) if args.run_mode: assert args.run_mode == 'cpuonly', "CPUONLY launch only support run mode is CPUONLY" if args.servers: raise RuntimeError("CPUONLY launch can't have --servers as arguments.") return True def get_cluster_info(args): # parse arguments, used for cloud-single-machine and local if args.backend == 'gloo': cpuonly_check(args) if args.enable_auto_mapping: (device_mode, devices_per_proc) = (DeviceMode.GPU, []) else: (device_mode, devices_per_proc) = launch_utils.get_device_proc_info(args) trainers_num = cloud_utils.get_trainers_num() logger.debug("parsed from args trainerss_num:{} mode:{} devices:{}".format( trainers_num, device_mode, devices_per_proc)) cuda_visible_devices = os.getenv("CUDA_VISIBLE_DEVICES") cluster = None pod = None start_port = 6170 if os.environ.get('FLAGS_START_PORT') is not None: start_port = os.environ.get('FLAGS_START_PORT') # auto mapping between processes and devices for auto-parallel if args.enable_auto_mapping == True: assert args.cluster_topo_path is not None, \ "The cluster topology must be provied when enabling auto mapping." rank_mapping_path = args.rank_mapping_path or os.getenv( "PADDLE_RANK_MAPPING_PATH") if not rank_mapping_path: os.environ["PADDLE_NEED_RANK_MAPPING"] = str(True) os.environ["PADDLE_ENABLE_ELASTIC"] = str( enable_elastic(args, device_mode)) cwd = pathlib.Path().resolve() rank_mapping_path = os.path.join(cwd, "auto_parallel_rank_mapping.json") os.environ["PADDLE_RANK_MAPPING_PATH"] = str(rank_mapping_path) original_args = sys.argv[1:] os.environ["PADDLE_ORIGINAL_CMD_ARGS"] = " ".join(original_args) os.environ["PADDLE_CLUSTER_TOPO_PATH"] = str(args.cluster_topo_path) os.environ["PADDLE_ENABLE_AUTO_MAPPING"] = str( args.enable_auto_mapping) cluster, pod = launch_utils.get_mapped_cluster_from_args_without_rank_mapping( args, device_mode) else: os.environ["PADDLE_NEED_RANK_MAPPING"] = str(False) os.environ["PADDLE_ENABLE_ELASTIC"] = str( enable_elastic(args, device_mode)) os.environ["PADDLE_CLUSTER_TOPO_PATH"] = str(args.cluster_topo_path) os.environ["PADDLE_RANK_MAPPING_PATH"] = str(rank_mapping_path) os.environ["PADDLE_ENABLE_AUTO_MAPPING"] = str( args.enable_auto_mapping) cluster, pod = launch_utils.get_mapped_cluster_from_args_with_rank_mapping( args, device_mode) elif cloud_utils.use_paddlecloud() and trainers_num != 1: cluster, pod = cloud_utils.get_cloud_cluster(args.ips, device_mode, devices_per_proc, start_port) logger.debug("get cluster from cloud:{}".format(cluster)) elif device_mode == DeviceMode.ASCEND_NPU: # for ascend cluster, pod = ascend_utils.get_cloud_cluster(rank_table_file=os.getenv( "RANK_TABLE_FILE", None), device_mode=device_mode, start_port=start_port) else: # trainers_num = 1 or not use paddlecloud ips="a,b" cluster, pod = get_cluster_from_args(args, device_mode, devices_per_proc) logger.debug("get cluster from args:{}".format(cluster)) return cluster, pod def get_global_envs(args, tmp_dir): global_envs = copy.copy(os.environ.copy()) # add gloo env global_envs["PADDLE_WITH_GLOO"] = str(os.getenv("PADDLE_WITH_GLOO", "0")) global_envs["PADDLE_GLOO_RENDEZVOUS"] = "3" global_envs["PADDLE_GLOO_FS_PATH"] = tmp_dir global_envs["PADDLE_DISTRI_BACKEND"] = args.backend return global_envs def launch_collective(args): tmp_dir = tempfile.mkdtemp() cluster, pod = get_cluster_info(args) global_envs = get_global_envs(args, tmp_dir) procs = start_local_trainers(cluster, pod, training_script=args.training_script, training_script_args=args.training_script_args, log_dir=args.log_dir, envs=global_envs) for idx, proc in enumerate(procs): print("launch proc_id:{} idx:{}".format(proc.proc.pid, idx)) while True: try: alive = watch_local_trainers(procs, cluster.trainers_nranks()) if not alive: logger.info("Local processes completed.") logger.debug("POD info:{}".format(pod)) break time.sleep(3) except: logger.warning("Terminating... exit") terminate_local_procs(procs) exit(1) if os.path.exists(tmp_dir): shutil.rmtree(tmp_dir) def launch_ps(args, distribute_mode): cloud_flag = cloud_utils.use_paddlecloud() # for ps-cpu on paddlecloud if cloud_flag and distribute_mode == DistributeMode.PS: direct_start(args) return #elif cloud_flag and distribute_mode == DistributeMode.PS_HETER: # cloud_ps_heter_env_set(args) # args.workers = os.getenv("PADDLE_TRAINER_ENDPOINTS") # args.servers = os.getenv("PADDLE_PSERVERS_IP_PORT_LIST") # args.heter_workers = os.getenv("PADDLE_HETER_TRAINER_IP_PORT_LIST") ps_launcher = ParameterServerLauncher(args, distribute_mode) ps_launcher.start_ps() return def infer_backend(args): if args.backend != "auto": return if fluid.core.is_compiled_with_cuda(): args.backend = 'nccl' elif fluid.core.is_compiled_with_npu(): args.backend = 'unknown' elif fluid.core.is_compiled_with_xpu(): args.backend = 'bkcl' elif fluid.core.is_compiled_with_mlu(): args.backend = 'cncl' else: args.backend = 'gloo' def which_distributed_mode(args): infer_backend(args) # modify the args.backend if args.run_mode is not None: assert args.run_mode in ["collective", "ps", "ps-heter"] if args.run_mode == "collective": return DistributeMode.COLLECTIVE elif args.run_mode == "ps": return DistributeMode.PS elif args.run_mode == "ps-heter": return DistributeMode.PS_HETER ps_args = [ '--worker_num', '--server_num', '--heter_worker_num', '--servers', '--workers', '--heter_workers', '--heter_devices', '--http_port' ] collective_args = ['--ips'] ps_heter_args = ["--heter_worker_num", "--heter_workers", "--heter_devices"] coordinator_args = ["--coordinator_num", "--coordinators"] has_ps_args = [ ps_arg for ps_arg in ps_args if ps_arg in " ".join(sys.argv[1:-1]) ] has_collective_args = [ co_arg for co_arg in collective_args if co_arg in " ".join(sys.argv[1:-1]) ] if len(has_ps_args) > 1 and len(has_collective_args) > 1: raise ValueError( "Only one mode(Collective or Parameter-Server) can be selected at the same time, but more than one configuration was received." ) if fluid.core.is_compiled_with_cuda(): accelerators = fluid.core.get_cuda_device_count() elif fluid.core.is_compiled_with_npu(): accelerators = fluid.core.get_npu_device_count() elif fluid.core.is_compiled_with_xpu(): accelerators = fluid.core.get_xpu_device_count() elif fluid.core.is_compiled_with_mlu(): accelerators = fluid.core.get_mlu_device_count() else: accelerators = 0 if len(has_ps_args) > 0: logger.info( "Run parameter-sever mode. pserver arguments:{}, accelerators count:{}" .format(has_ps_args, accelerators)) has_ps_heter_args = list(set(has_ps_args) & set(ps_heter_args)) has_coordinator_args = list(set(has_ps_args) & set(coordinator_args)) if len(has_ps_heter_args) > 0: return DistributeMode.PS_HETER else: return DistributeMode.PS elif len(has_collective_args) > 0: logger.info( "Run collective mode. gpu arguments:{}, cuda count:{}".format( has_collective_args, accelerators)) return DistributeMode.COLLECTIVE else: if not fluid.core.is_compiled_with_cuda( ) and not fluid.core.is_compiled_with_xpu( ) and not fluid.core.is_compiled_with_mlu(): if args.servers: logger.warning( "Not found distinct arguments and not compiled with cuda or xpu or npu or mlu. " "But found args.servers not empty, default use ps mode") return DistributeMode.PS else: return DistributeMode.COLLECTIVE else: logger.warning( "Not found distinct arguments and compiled with cuda or xpu or npu or mlu. " "Default use collective mode") return DistributeMode.COLLECTIVE def launch(): """ Paddle distribution training entry ``python -m paddle.distributed.launch``. Usage: .. code-block:: bash :name: code-block-bash1 python -m paddle.distributed.launch [-h] [--log_dir LOG_DIR] [--nproc_per_node NPROC_PER_NODE] [--run_mode RUN_MODE] [--gpus GPUS] [--selected_gpus GPUS] [--ips IPS] [--servers SERVERS] [--workers WORKERS] [--heter_workers HETER_WORKERS] [--worker_num WORKER_NUM] [--server_num SERVER_NUM] [--heter_worker_num HETER_WORKER_NUM] [--http_port HTTP_PORT] [--elastic_server ELASTIC_SERVER] [--job_id JOB_ID] [--np NP] [--scale SCALE] [--host HOST] [--force FORCE] training_script ... Base Parameters: - ``--log_dir``: The path for each process's log. e.g., ``--log_dir=output_dir``. Default ``--log_dir=log``. - ``--nproc_per_node``: The number of processes to launch on a node. In gpu training, it should be less or equal to the gpus number of you system(or you set by --gpus). e.g., ``--nproc_per_node=8`` - ``--run_mode``: run mode of job, can be:collective/ps/ps-heter. e.g., ``--run_mode=ps``. Default ``--run_mode=collective``. - ``--gpus``: It's for gpu training. e.g., ``--gpus=0,1,2,3`` will launch four training processes each bound to one gpu. - ``--selected_gpus``: gpus aliases, recommend to use ``--gpus``. - ``--xpus``: It's for xpu training if xpu is available. e.g., ``--xpus=0,1,2,3``. - ``--selected_xpus``: xpus aliases, recommend to use ``--xpus``. - ``--mlus``: It's for mlu training. e.g., ``--mlus=0,1,2,3`` will launch four training processes each bound to one mlu. - ``--selected_mlus``: mlus aliases, recommend to use ``--mlus``. - ``training_script``: The full path to the single GPU training program/script to be launched in parallel, followed by all the arguments for the training script. e.g., ``training.py`` - ``training_script_args``: The args of training_script. e.g., ``--lr=0.1`` Collective Parameters: - ``--ips``: Paddle cluster nodes ips, e.g., ``--ips=192.168.0.16,192.168.0.17``. Default ``--ips=127.0.0.1``. Parameter-Server Parameters: - ``--servers``: User defined servers ip:port, e.g., ``--servers="192.168.0.16:6170,192.168.0.17:6170"`` - ``--workers``: User defined workers ip:port, e.g., ``--workers="192.168.0.16:6171,192.168.0.16:6172,192.168.0.17:6171,192.168.0.17:6172"`` - ``--heter_workers``: User defined heter workers ip1:port1;ip2:port2, e.g., ``--heter_workers="192.168.0.16:6172;192.168.0.17:6172"`` - ``--worker_num``: Number of workers (It recommend to set when in the emulated distributed environment using single node) - ``--server_num``: Number of servers (It recommend to set when in the emulated distributed environment using single node) - ``--heter_worker_num``: Number of heter_workers in each stage (It recommend to set when in the emulated distributed environment using single node) - ``--heter_devices``: Type of heter_device in each stage - ``--http_port``: Gloo http Port Elastic Parameters: - ``--elastic_server``: etcd server host:port, e.g., ``--elastic_server=127.0.0.1:2379`` - ``--job_id``: job unique id, e.g., ``--job_id=job1`` - ``--np``: job pod/node number, e.g., ``--np=2`` - ``--host``: bind host, default to POD_IP env. Returns: ``None`` Examples 1 (collective, single node): .. code-block:: bash :name: code-block-example-bash1 # For training on single node using 4 gpus. python -m paddle.distributed.launch --gpus=0,1,2,3 train.py --lr=0.01 Examples 2 (collective, multi node): .. code-block:: bash :name: code-block-example-bash2 # The parameters of --gpus and --ips must be consistent in each node. # For training on multiple nodes, e.g., 192.168.0.16, 192.168.0.17 # On 192.168.0.16: python -m paddle.distributed.launch --gpus=0,1,2,3 --ips=192.168.0.16,192.168.0.17 train.py --lr=0.01 # On 192.168.0.17: python -m paddle.distributed.launch --gpus=0,1,2,3 --ips=192.168.0.16,192.168.0.17 train.py --lr=0.01 Examples 3 (ps, cpu, single node): .. code-block:: bash :name: code-block-example-bash3 # To simulate distributed environment using single node, e.g., 2 servers and 4 workers. python -m paddle.distributed.launch --server_num=2 --worker_num=4 train.py --lr=0.01 Examples 4 (ps, cpu, multi node): .. code-block:: bash :name: code-block-example-bash4 # For training on multiple nodes, e.g., 192.168.0.16, 192.168.0.17 where each node with 1 server and 2 workers. # On 192.168.0.16: python -m paddle.distributed.launch --servers="192.168.0.16:6170,192.168.0.17:6170" --workers="192.168.0.16:6171,192.168.0.16:6172,192.168.0.17:6171,192.168.0.17:6172" train.py --lr=0.01 # On 192.168.0.17: python -m paddle.distributed.launch --servers="192.168.0.16:6170,192.168.0.17:6170" --workers="192.168.0.16:6171,192.168.0.16:6172,192.168.0.17:6171,192.168.0.17:6172" train.py --lr=0.01 Examples 5 (ps, gpu, single node): .. code-block:: bash :name: code-block-example-bash5 # To simulate distributed environment using single node, e.g., 2 servers and 4 workers, each worker use single gpu. export CUDA_VISIBLE_DEVICES=0,1,2,3 python -m paddle.distributed.launch --server_num=2 --worker_num=4 train.py --lr=0.01 Examples 6 (ps, gpu, multi node): .. code-block:: bash :name: code-block-example-bash6 # For training on multiple nodes, e.g., 192.168.0.16, 192.168.0.17 where each node with 1 server and 2 workers. # On 192.168.0.16: export CUDA_VISIBLE_DEVICES=0,1 python -m paddle.distributed.launch --servers="192.168.0.16:6170,192.168.0.17:6170" --workers="192.168.0.16:6171,192.168.0.16:6172,192.168.0.17:6171,192.168.0.17:6172" train.py --lr=0.01 # On 192.168.0.17: export CUDA_VISIBLE_DEVICES=0,1 python -m paddle.distributed.launch --servers="192.168.0.16:6170,192.168.0.17:6170" --workers="192.168.0.16:6171,192.168.0.16:6172,192.168.0.17:6171,192.168.0.17:6172" train.py --lr=0.01 Examples 7 (ps-heter, cpu + gpu, single node): .. code-block:: bash :name: code-block-example-bash7 # To simulate distributed environment using single node, e.g., 2 servers and 4 workers, two workers use gpu, two workers use cpu. export CUDA_VISIBLE_DEVICES=0,1 python -m paddle.distributed.launch --server_num=2 --worker_num=2 --heter_worker_num=2 train.py --lr=0.01 Examples 8 (ps-heter, cpu + gpu, multi node): .. code-block:: bash :name: code-block-example-bash8 # For training on multiple nodes, e.g., 192.168.0.16, 192.168.0.17 where each node with 1 server, 1 gpu worker, 1 cpu worker. # On 192.168.0.16: export CUDA_VISIBLE_DEVICES=0 python -m paddle.distributed.launch --servers="192.168.0.16:6170,192.168.0.17:6170" --workers="192.168.0.16:6171,192.168.0.17:6171" --heter_workers="192.168.0.16:6172,192.168.0.17:6172" train.py --lr=0.01 # On 192.168.0.17: export CUDA_VISIBLE_DEVICES=0 python -m paddle.distributed.launch --servers="192.168.0.16:6170,192.168.0.17:6170" --workers="192.168.0.16:6171,192.168.0.17:6171" --heter_workers="192.168.0.16:6172,192.168.0.17:6172" train.py --lr=0.01 Examples 9 (elastic): .. code-block:: bash :name: code-block-example-bash9 python -m paddle.distributed.launch --elastic_server=127.0.0.1:2379 --np=2 --job_id=job1 --gpus=0,1,2,3 train.py """ args = _parse_args() logger = get_logger() _print_arguments(args) if args.backend == 'auto': distribute_mode = which_distributed_mode( args) # which_distributed_mode must modify args.backend else: assert args.run_mode == 'collective' or args.run_mode == None, "When backend is not 'auto', run mode must be collective" check_backend(args.backend) distribute_mode = DistributeMode.COLLECTIVE #assert args.backend in ['gloo', 'nccl', 'bkcl', 'cncl', 'heter', 'unknown'] if args.backend == 'gloo': logger.warning("launch start with CPUONLY mode") block_windows_and_macos( args.backend) # raise error when using gloo on windows or macos if enable_elastic(args, distribute_mode): launch_elastic(args, distribute_mode) return if distribute_mode == DistributeMode.COLLECTIVE: launch_collective(args) else: launch_ps(args, distribute_mode) if __name__ == "__main__": launch()