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Source code for pytorch_lightning.accelerators.ddp_hpc_accelerator

# Copyright The PyTorch Lightning team.
#
# 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 os
from typing import Any, List, Optional, Union

import torch
import torch.distributed as dist
import torch.distributed as torch_distrib
from torch.nn.parallel import DistributedDataParallel

from pytorch_lightning import _logger as log
from pytorch_lightning.accelerators.accelerator import Accelerator, ReduceOp
from pytorch_lightning.cluster_environments import ClusterEnvironment
from pytorch_lightning.core.lightning import LightningModule
from pytorch_lightning.distributed.dist import LightningDistributed
from pytorch_lightning.plugins.ddp_plugin import DDPPlugin
from pytorch_lightning.plugins.rpc_plugin import RPCPlugin
from pytorch_lightning.utilities import AMPType, HYDRA_AVAILABLE
from pytorch_lightning.utilities.distributed import all_gather_ddp_if_available, rank_zero_only, sync_ddp_if_available

if HYDRA_AVAILABLE:
    from hydra.core.hydra_config import HydraConfig
    from hydra.utils import get_original_cwd, to_absolute_path


[docs]class DDPHPCAccelerator(Accelerator): def __init__(self, trainer, cluster_environment: Optional[ClusterEnvironment] = None, ddp_plugin: Optional[DDPPlugin] = None): """ Runs training using DDP on an HPC cluster Example:: # default trainer = Trainer(accelerator=DDPHPCAccelerator()) """ super().__init__(trainer, cluster_environment, ddp_plugin) self.task_idx = None self._has_spawned_children = False self.dist = LightningDistributed() self.nickname = 'ddp' def setup(self, model): self.trainer.model = model self.task_idx = self.cluster_environment.local_rank() def train(self): model = self.trainer.model self.ddp_train(process_idx=self.task_idx, model=model) def set_world_ranks(self, process_idx): self.trainer.local_rank = process_idx self.trainer.global_rank = self.trainer.node_rank * self.trainer.num_processes + process_idx self.trainer.world_size = self.trainer.num_nodes * self.trainer.num_processes def init_device(self, process_idx): self.trainer.root_gpu = process_idx torch.cuda.set_device(self.trainer.root_gpu) def model_to_device(self, model): model.cuda(self.trainer.root_gpu) def get_device_ids(self): device_ids = [self.trainer.root_gpu] return device_ids def training_step(self, args): return self._step(args) def validation_step(self, args): return self._step(args) def test_step(self, args): return self._step(args) def _step(self, args): args = self.ddp_plugin.on_before_forward(self.trainer.get_model(), *args) if self.trainer.amp_backend == AMPType.NATIVE: with torch.cuda.amp.autocast(): output = self.trainer.model(*args) else: output = self.trainer.model(*args) return output def barrier(self, name: Optional[str] = None): if torch_distrib.is_initialized(): torch_distrib.barrier() def early_stopping_should_stop(self, pl_module): stop = torch.tensor(int(self.trainer.should_stop), device=pl_module.device) dist.all_reduce(stop, op=dist.reduce_op.SUM) dist.barrier() should_stop = stop == self.trainer.world_size return should_stop def broadcast(self, obj, src=0): return self.dist.broadcast(obj)
[docs] def ddp_train(self, process_idx, model): """ Entry point for ddp Args: process_idx: mp_queue: multiprocessing queue model: Returns: Dict with evaluation results """ # determine which process we are and world size self.set_world_ranks(process_idx) self.init_device(process_idx) # toggle prog bar if (self.trainer.node_rank != 0 or process_idx != 0) and self.trainer.progress_bar_callback is not None: self.trainer.progress_bar_callback.disable() # set warning rank rank_zero_only.rank = self.trainer.global_rank # set up server using proc 0's ip address # try to init for 20 times at max in case ports are taken # where to store ip_table model.trainer = self.trainer self.init_ddp_connection( self.trainer.global_rank, self.trainer.world_size, self.trainer.is_slurm_managing_tasks ) if isinstance(self.ddp_plugin, RPCPlugin): if not self.ddp_plugin.is_main_rpc_process: self.ddp_plugin.on_accelerator_exit_rpc_process(self.trainer) self.ddp_plugin.exit_rpc_process() if self.ddp_plugin.return_after_exit_rpc_process: return else: self.ddp_plugin.on_main_rpc_connection(self.trainer) # call setup after the ddp process has connected self.trainer.call_setup_hook(model) # on world_size=0 let everyone know training is starting if self.trainer.is_global_zero and not torch.distributed.is_initialized(): log.info('-' * 100) log.info(f'distributed_backend={self.trainer.distributed_backend}') log.info(f'All DDP processes registered. Starting ddp with {self.trainer.world_size} processes') log.info('-' * 100) # call sync_bn before .cuda(), configure_apex and configure_ddp if self.trainer.sync_batchnorm: model = self.configure_sync_batchnorm(model) # move the model to the correct device self.model_to_device(model) # CHOOSE OPTIMIZER # allow for lr schedulers as well self.setup_optimizers(model) self.ddp_plugin.on_after_setup_optimizers(self.trainer) # set model properties before going into wrapper self.trainer.model_connector.copy_trainer_model_properties(model) # 16-bit model = self.trainer.precision_connector.connect(model) # device ids change depending on the DDP setup device_ids = self.get_device_ids() # allow user to configure ddp model = self.configure_ddp(model, device_ids) # set up training routine self.trainer.train_loop.setup_training(model) # train or test results = self.train_or_test() # clean up memory torch.cuda.empty_cache() return results
def configure_ddp( self, model: LightningModule, device_ids: List[int] ) -> DistributedDataParallel: self.ddp_plugin.device_ids = device_ids model = self.ddp_plugin.configure_ddp(model, device_ids) return model
[docs] def configure_sync_batchnorm(self, model: LightningModule) -> LightningModule: """ Add global batchnorm for a model spread across multiple GPUs and nodes. Override to synchronize batchnorm between specific process groups instead of the whole world or use a different sync_bn like `apex`'s version. Args: model: pointer to current :class:`LightningModule`. Return: LightningModule with batchnorm layers synchronized between process groups """ model = torch.nn.SyncBatchNorm.convert_sync_batchnorm(model, process_group=None) return model
[docs] def sync_tensor(self, tensor: Union[torch.Tensor], group: Optional[Any] = None, reduce_op: Optional[Union[ReduceOp, str]] = None) -> torch.Tensor: return sync_ddp_if_available(tensor, group, reduce_op)
[docs] def all_gather(self, tensor: Union[torch.Tensor], group: Optional[Any] = None, sync_grads: bool = False): """ Function to gather a tensor from several distributed processes Args: tensor: tensor of shape (batch, ...) group: the process group to gather results from. Defaults to all processes (world) sync_grads: flag that allows users to synchronize gradients for all_gather op Return: A tensor of shape (world_size, batch, ...) """ return all_gather_ddp_if_available(tensor, group=group, sync_grads=sync_grads)
[docs] def get_reference_model(self, model) -> LightningModule: return self.ddp_plugin.get_model_from_plugin(model)
@property def distributed_sampler_kwargs(self): distributed_sampler_kwargs = dict( num_replicas=self.trainer.num_nodes * self.trainer.num_processes, rank=self.trainer.global_rank ) if self.ddp_plugin is not None: distributed_sampler_kwargs = self.ddp_plugin.distributed_sampler_kwargs(distributed_sampler_kwargs) return distributed_sampler_kwargs @property def require_distributed_sampler(self): return True

© Copyright Copyright (c) 2018-2021, William Falcon et al... Revision 652df188.

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