Source code for transformers.deepspeed

# Copyright 2020 The HuggingFace Team. 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
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# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
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# See the License for the specific language governing permissions and
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"""
Integration with Deepspeed
"""

import importlib.util
import io
import json
import weakref
from copy import deepcopy
from functools import partialmethod

from .dependency_versions_check import dep_version_check
from .file_utils import is_torch_available
from .utils import logging


if is_torch_available():
    import torch

logger = logging.get_logger(__name__)


def is_deepspeed_available():
    return importlib.util.find_spec("deepspeed") is not None


[docs]class HfDeepSpeedConfig: """ This object contains a DeepSpeed configuration dictionary and can be quickly queried for things like zero stage. A ``weakref`` of this object is stored in the module's globals to be able to access the config from areas where things like the Trainer object is not available (e.g. ``from_pretrained`` and ``_get_resized_embeddings``). Therefore it's important that this object remains alive while the program is still running. :class:`~transformers.Trainer` uses the ``HfTrainerDeepSpeedConfig`` subclass instead. That subclass has logic to sync the configuration with values of :class:`~transformers.TrainingArguments` by replacing special placeholder values: ``"auto"``. Without this special logic the DeepSpeed configuration is not modified in any way. Args: config_file_or_dict (:obj:`Union[str, Dict]`): path to DeepSpeed config file or dict. """ def __init__(self, config_file_or_dict): # set global weakref object set_hf_deepspeed_config(self) dep_version_check("deepspeed") if isinstance(config_file_or_dict, dict): # Don't modify user's data should they want to reuse it (e.g. in tests), because once we # modified it, it will not be accepted here again, since `auto` values would have been overridden config = deepcopy(config_file_or_dict) elif isinstance(config_file_or_dict, str): with io.open(config_file_or_dict, "r", encoding="utf-8") as f: config = json.load(f) else: raise ValueError("expecting either a path to a DeepSpeed config file or a pre-populated dict") self.config = config # zero stage - this is done as early as possible, before model is created, to allow # ``is_deepspeed_zero3_enabled`` query and getting to the early deepspeed config object # during ``zero.Init()`` which needs whether fp16 is enabled, dtype, etc. self._stage = self.get_value("zero_optimization.stage", -1) # offload self._offload = False if self.is_zero2() or self.is_zero3(): offload_devices_valid = set(["cpu", "nvme"]) offload_devices = set( [ self.get_value("zero_optimization.offload_optimizer.device"), self.get_value("zero_optimization.offload_param.device"), ] ) if len(offload_devices & offload_devices_valid) > 0: self._offload = True def find_config_node(self, ds_key_long): config = self.config # find the config node of interest if it exists nodes = ds_key_long.split(".") ds_key = nodes.pop() for node in nodes: config = config.get(node) if config is None: return None, ds_key return config, ds_key
[docs] def get_value(self, ds_key_long, default=None): """ Returns the set value or ``default`` if no value is set """ config, ds_key = self.find_config_node(ds_key_long) if config is None: return default return config.get(ds_key, default)
[docs] def is_true(self, ds_key_long): """ Returns :obj:`True`/:obj:`False` only if the value is set, always :obj:`False` otherwise. So use this method to ask the very specific question of whether the value is set to :obj:`True` (and it's not set to :obj:`False` or isn't set). """ value = self.get_value(ds_key_long) return False if value is None else bool(value)
[docs] def is_false(self, ds_key_long): """ Returns :obj:`True`/:obj:`False` only if the value is set, always :obj:`False` otherwise. So use this method to ask the very specific question of whether the value is set to :obj:`False` (and it's not set to :obj:`True` or isn't set). """ value = self.get_value(ds_key_long) return False if value is None else not bool(value)
def is_zero2(self): return self._stage == 2 def is_zero3(self): return self._stage == 3 def is_offload(self): return self._offload
class HfTrainerDeepSpeedConfig(HfDeepSpeedConfig): """ The ``HfTrainerDeepSpeedConfig`` object is meant to be created during ``TrainingArguments`` object creation and has the same lifespan as the latter. """ def __init__(self, config_file_or_dict): super().__init__(config_file_or_dict) self._dtype = torch.float16 self.mismatches = [] def dtype(self): return self._dtype def fill_match(self, ds_key_long, hf_val, hf_key=None, must_match=True): """ A utility method that massages the config file and can optionally verify that the values match. 1. Replace "auto" values with ``TrainingArguments`` value. 2. If it wasn't "auto" and ``must_match`` is true, then check that DS config matches Trainer config values and if mismatched add the entry to ``self.mismatched`` - will assert during ``trainer_config_finalize`` for one or more mismatches. """ config, ds_key = self.find_config_node(ds_key_long) if config is None: return if config.get(ds_key) == "auto": config[ds_key] = hf_val return if not must_match: return ds_val = config.get(ds_key) if ds_val is not None and ds_val != hf_val: self.mismatches.append(f"- ds {ds_key_long}={ds_val} vs hf {hf_key}={hf_val}") fill_only = partialmethod(fill_match, must_match=False) def trainer_config_process(self, args): """ Adjust the config with ``TrainingArguments`` values. This stage is run during ``TrainingArguments`` object creation. """ # DeepSpeed does: # train_batch_size = world_size * train_micro_batch_size_per_gpu * gradient_accumulation_steps train_batch_size = args.world_size * args.per_device_train_batch_size * args.gradient_accumulation_steps self.fill_match( "train_micro_batch_size_per_gpu", args.per_device_train_batch_size, "per_device_train_batch_size" ) self.fill_match("gradient_accumulation_steps", args.gradient_accumulation_steps, "gradient_accumulation_steps") self.fill_match("train_batch_size", train_batch_size, "train_batch_size (calculated)") self.fill_match("gradient_clipping", args.max_grad_norm, "max_grad_norm") self.fill_match("optimizer.params.lr", args.learning_rate, "learning_rate") self.fill_match("optimizer.params.betas", [args.adam_beta1, args.adam_beta2], "adam_beta1+adam_beta2") self.fill_match("optimizer.params.eps", args.adam_epsilon, "adam_epsilon") self.fill_match("optimizer.params.weight_decay", args.weight_decay, "weight_decay") self.fill_only("scheduler.params.warmup_min_lr", 0) # not a trainer arg self.fill_match("scheduler.params.warmup_max_lr", args.learning_rate, "learning_rate") # total_num_steps - will get set in trainer_config_finalize # fp16 if args.fp16: fp16_backend = "apex" if args.fp16_backend == "apex" else "amp" else: fp16_backend = None # amp: similar to the pytorch native amp - it has a bunch of optional params but we won't set # any here unless the user did the work self.fill_match("fp16.enabled", fp16_backend == "amp", "fp16+fp16_backend(amp)") # apex: delegates amp work to apex (which needs to be available), but it cannot be used with any # ZeRO features self.fill_match("amp.enabled", fp16_backend == "apex", "fp16+fp16_backend(apex)") self.fill_match("amp.opt_level", args.fp16_opt_level, "fp16_opt_level") # only if we have an explicit fp16.enabled = False then it's fp32, if it's True or this # whole config section is missing then the fallback is fp16 if self.is_false("fp16.enabled"): self._dtype = torch.float32 # later there will be other dtypes besides just fp16 and fp32 # also not quite sure what dtype should be under apex, defaulting to fp16 for now def trainer_config_finalize(self, args, model, num_training_steps): """ This stage is run after we have the model and know num_training_steps. Now we we can complete the configuration process. """ # zero if self.is_zero3(): # automatically assign the optimal config values based on model config hidden_size = model.config.hidden_size self.fill_only("zero_optimization.reduce_bucket_size", hidden_size * hidden_size) self.fill_only("zero_optimization.stage3_prefetch_bucket_size", 0.9 * hidden_size * hidden_size) self.fill_only("zero_optimization.stage3_param_persistence_threshold", 10 * hidden_size) # scheduler self.fill_match("scheduler.params.total_num_steps", num_training_steps, "num_training_steps (calculated)") self.fill_match("scheduler.params.warmup_num_steps", args.get_warmup_steps(num_training_steps), "warmup_steps") if len(self.mismatches) > 0: mismatches = "\n".join(self.mismatches) raise ValueError( f"Please correct the following DeepSpeed config values that mismatch TrainingArguments values:\n{mismatches}\n" "The easiest method is to set these DeepSpeed config values to 'auto'." ) # keep the config object global to be able to access it anywhere during TrainingArguments life-cycle _hf_deepspeed_config_weak_ref = None def set_hf_deepspeed_config(hf_deepspeed_config_obj): # this is a special weakref global object to allow us to get to Deepspeed config from APIs # that don't have an easy way to get to the Deepspeed config outside of the Trainer domain. global _hf_deepspeed_config_weak_ref # will go away automatically when HfDeepSpeedConfig is destroyed (when TrainingArguments is destroyed) _hf_deepspeed_config_weak_ref = weakref.ref(hf_deepspeed_config_obj) def is_deepspeed_zero3_enabled(): if _hf_deepspeed_config_weak_ref is not None and _hf_deepspeed_config_weak_ref() is not None: return _hf_deepspeed_config_weak_ref().is_zero3() else: return False def deepspeed_config(): if _hf_deepspeed_config_weak_ref is not None and _hf_deepspeed_config_weak_ref() is not None: return _hf_deepspeed_config_weak_ref().config else: return None def deepspeed_init(trainer, num_training_steps, resume_from_checkpoint=None): """ Init DeepSpeed, after updating the DeepSpeed configuration with any relevant Trainer's args. If ``resume_from_checkpoint`` was passed then an attempt to resume from a previously saved checkpoint will be made. Args: trainer: Trainer object num_training_steps: per single gpu resume_from_checkpoint: path to a checkpoint if to resume from after normal DeepSpeedEngine load Returns: model, optimizer, lr_scheduler """ import deepspeed from deepspeed.utils import logger as ds_logger model = trainer.model args = trainer.args hf_deepspeed_config = args.hf_deepspeed_config hf_deepspeed_config.trainer_config_finalize(args, model, num_training_steps) # resume config update - some bits like `model` and `num_training_steps` only become available during train config = hf_deepspeed_config.config # Optimizer + Scheduler # Currently supported combos: # 1. DS scheduler + DS optimizer: Yes # 2. HF scheduler + HF optimizer: Yes # 3. DS scheduler + HF optimizer: Yes # 4. HF scheduler + DS optimizer: Yes # # Unless Offload is enabled in which case it's: # 1. DS scheduler + DS optimizer: Yes # 2. HF scheduler + HF optimizer: Mostly* # 3. DS scheduler + HF optimizer: Mostly* # 4. HF scheduler + DS optimizer: Yes # # Mostly*: All non-native DeepSpeed optimizers that have both CPU and GPU implementation should work (except LAMB) optimizer = None if "optimizer" in config: if args.adafactor: raise ValueError( "--adafactor was passed, but also found `optimizer` configured in the DeepSpeed config. " "Only one optimizer can be configured." ) else: if hf_deepspeed_config.is_offload(): logger.info( "Detected ZeRO Offload and non-DeepSpeed optimizers: This combination should work as long as the custom optimizer has both CPU and GPU implementation (except LAMB)" ) # ds supports Adam, OneBitAdam, and Lamb optimizers and can import other optimizers from torch. # But trainer uses AdamW by default. optimizer = trainer.create_optimizer() # To use other optimizers requires voiding warranty with: `zero_allow_untested_optimizer` config["zero_allow_untested_optimizer"] = True def _lr_scheduler_callable(optimizer): return trainer.create_scheduler(num_training_steps=num_training_steps, optimizer=optimizer) lr_scheduler = None if "scheduler" not in config: if optimizer is None: # Optimizer is not available, so use callable to defer lr_scheduler creation to DS init lr_scheduler = _lr_scheduler_callable else: lr_scheduler = trainer.create_scheduler(num_training_steps=num_training_steps, optimizer=optimizer) # keep for quick debug: # from pprint import pprint; pprint(config) # set the Deepspeed log level consistent with the trainer ds_logger.setLevel(args.get_process_log_level()) model_parameters = filter(lambda p: p.requires_grad, model.parameters()) model, optimizer, _, lr_scheduler = deepspeed.initialize( model=model, model_parameters=model_parameters, config_params=config, optimizer=optimizer, lr_scheduler=lr_scheduler, ) if resume_from_checkpoint is not None: # it's possible that the user is trying to resume from model_path, which doesn't necessarily # contain a deepspeed checkpoint. e.g. examples just check if the dir exists and assume it's # a resume from a checkpoint and not just a local pretrained weight. So we check here if the # path contains what looks like a deepspeed checkpoint import glob deepspeed_checkpoint_dirs = sorted(glob.glob(f"{resume_from_checkpoint}/global_step*")) if len(deepspeed_checkpoint_dirs) > 0: logger.info(f"Attempting to resume from {resume_from_checkpoint}") # this magically updates self.optimizer and self.lr_scheduler load_path, _ = model.load_checkpoint( resume_from_checkpoint, load_optimizer_states=True, load_lr_scheduler_states=True ) if load_path is None: raise ValueError(f"[deepspeed] failed to resume from checkpoint {resume_from_checkpoint}") else: logger.info(f"{resume_from_checkpoint} doesn't have deepspeed checkpoints, doing nothing") return model, optimizer, lr_scheduler