# Copyright (c) 2021 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 logging import paddle from paddle.distributed.utils import get_logger from paddle.distributed.fleet import cloud_utils import paddle.fluid.core as core from .dist_context import DistributedContext from .dist_context import get_default_distributed_context from .dist_context import set_default_distributed_context from .completion import complete_annotation, complete_backward_annotation from .partitioner import Partitioner from .process_group import get_all_process_groups from .utils import make_data_unshard from .utils import set_grad_var_shape from .reshard import reshard # from .auto_search import auto_search _logger = get_logger(logging.INFO) class AutoParallelizer: """ AutoParallelizer is the main controller class to do the auto parallel process. And the auto parallel process will be triggered in the wrapped parallelize function. To facilitate the auto parallelization, it will contain information about program, cluster and the related context. In this basic version, the program information will be retrevied from Fleet object, and the cluster information can be retrevied in the new created Cluster object, and the context information can be retrevied in the new created DistributedContext. """ def __init__(self, fleet): self._fleet = fleet self._optimizer = self._fleet.user_defined_optimizer self._dist_strategy = self._fleet._user_defined_strategy self._dist_context = DistributedContext() def _remove_distributed_attrs(self, main_program): suffix = core.kAutoParallelSuffix() # distributed attributes for variable have been removed # in previous process. for block in main_program.blocks: for op in block.ops: for attr_name in op.attr_names: if suffix in attr_name: op._remove_attr(attr_name) def parallelize(self, loss, startup_program, parameter_list=None, no_grad_set=None): assert startup_program is not None main_program = loss.block.program if self._dist_strategy.auto_search: # auto search _logger.info("Start search dist attr.") # self._dist_context, _ = auto_search(main_program, startup_program, # loss, self._optimizer) # completed_main_program = main_program raise NotImplementedError("Auto search has not implemented") else: # Annotation completion _logger.info("Start annotation dist attr.") completed_main_program = complete_annotation(main_program, self._dist_context) # Logical partition rank = paddle.distributed.get_rank() partitioner = Partitioner(self._dist_strategy, self._dist_context, rank) partitioned_main_prog, partitioned_startup_prog = partitioner.transpile_forward( completed_main_program, startup_program) dist_params_grads = partitioner.apply_backward( loss, completed_main_program, startup_program, partitioned_main_prog, partitioned_startup_prog) dist_optimize_ops = partitioner.apply_optimize( self._optimizer, dist_params_grads, partitioned_main_prog, partitioned_startup_prog) # set the grad var shape set_grad_var_shape(partitioned_main_prog, self._dist_context) # The last step: remove all distributed attributes to be compatiable # with inference. self._remove_distributed_attrs(partitioned_main_prog) make_data_unshard(partitioned_main_prog, partitioned_startup_prog, self._dist_context) reshard(partitioned_main_prog, partitioned_startup_prog, rank, self._dist_context) # Traverse different rank programs and traverse each op of them, # instantiate communication by process_mapping. all_process_groups = get_all_process_groups() for process_group in all_process_groups: if rank not in process_group.ranks: continue process_group.instantiate() # Copy distributed info to the default context set_default_distributed_context(self._dist_context) return dist_optimize_ops, dist_params_grads, partitioned_startup_prog, partitioned_main_prog