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lightning/pytorch_lightning/accelerators/ddp_base_backend.py

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# 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
import re
import torch
from pytorch_lightning.utilities import AMPType
from pytorch_lightning.accelerators.base_backend import Accelerator
import torch.distributed as torch_distrib
import torch.distributed as dist
from pytorch_lightning.utilities.cloud_io import atomic_save
from pytorch_lightning.utilities.distributed import rank_zero_warn, rank_zero_only
from pytorch_lightning import _logger as log
from pytorch_lightning.utilities.seed import seed_everything
try:
from hydra.utils import to_absolute_path, get_original_cwd
from hydra.core.hydra_config import HydraConfig
except ImportError:
HYDRA_AVAILABLE = False
else:
HYDRA_AVAILABLE = True
class DDPBase(Accelerator):
def __init__(self, trainer):
super().__init__(trainer)
def training_step(self, 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 validation_step(self, args):
output = self.training_step(args)
return output
def test_step(self, args):
output = self.training_step(args)
return output
def barrier(self, name: str = None):
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 transfer_distrib_spawn_state_on_fit_end(self, model, mp_queue, results):
if self.trainer.distributed_backend.lower() not in ['ddp_spawn', 'ddp_cpu', 'tpu']:
return
# track the best model path
best_model_path = None
if self.trainer.checkpoint_callback is not None:
best_model_path = self.trainer.checkpoint_callback.best_model_path
if self.trainer.global_rank == 0 and mp_queue is not None:
rank_zero_warn('cleaning up ddp environment...')
# todo, pass complete checkpoint as state dictionary
mp_queue.put(best_model_path)
mp_queue.put(results)
# save the last weights
last_path = None
if not self.trainer.testing and best_model_path is not None and len(best_model_path) > 0:
last_path = re.sub('.ckpt', '.tmp_end.ckpt', best_model_path)
atomic_save(model.state_dict(), last_path)
mp_queue.put(last_path)
def ddp_train_tmp(self, process_idx, mp_queue, model, is_master=False, proc_offset=0):
"""
Entry point for ddp
Args:
process_idx:
mp_queue: multiprocessing queue
model:
Returns:
"""
seed = os.environ.get("PL_GLOBAL_SEED")
if seed is not None:
seed_everything(int(seed))
# offset the process id if requested
process_idx = process_idx + proc_offset
# show progressbar only on progress_rank 0
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()
# determine which process we are and world size
self.set_world_ranks(process_idx)
# 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
model.init_ddp_connection(
self.trainer.global_rank,
self.trainer.world_size,
self.trainer.is_slurm_managing_tasks
)
# 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:
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 = model.configure_sync_batchnorm(model)
# move the model to the correct device
self.model_to_device(model, process_idx, is_master)
# CHOOSE OPTIMIZER
# allow for lr schedulers as well
optimizers, lr_schedulers, optimizer_frequencies = self.trainer.init_optimizers(model)
self.trainer.optimizers = optimizers
self.trainer.lr_schedulers = lr_schedulers
self.trainer.optimizer_frequencies = optimizer_frequencies
# set model properties before going into wrapper
self.trainer.model_connector.copy_trainer_model_properties(model)
# AMP -
# run through amp wrapper before going to distributed DP
model, optimizers = self.trainer.precision_connector.connect(model, optimizers)
# device ids change depending on the DDP setup
device_ids = self.get_device_ids()
# allow user to configure ddp
model = model.configure_ddp(model, device_ids)
# set up training routine
self.trainer.train_loop.setup_training(model)
# train or test
results = self.train_or_test()
# get original model
model = self.trainer.get_model()
# persist info in ddp_spawn
self.transfer_distrib_spawn_state_on_fit_end(model, mp_queue, results)
# clean up memory
torch.cuda.empty_cache()
if self.trainer.global_rank == 0:
return results
def set_world_ranks(self, process_idx):
raise NotImplementedError('to create a ddp backend, please implement set_world_ranks')
def model_to_device(self, model, process_idx, is_master):
raise NotImplementedError('to create a ddp backend, please implement model_to_device')
def get_device_ids(self):
raise NotImplementedError('to create a ddp backend, please implement get_device_ids')
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