ColossalAI/colossalai/booster/booster.py

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import warnings
from contextlib import contextmanager
from typing import Callable, Iterator, List, Optional, Tuple, Union
import torch
import torch.nn as nn
from torch.optim import Optimizer
from torch.optim.lr_scheduler import _LRScheduler as LRScheduler
from torch.utils.data import DataLoader
from colossalai.checkpoint_io import GeneralCheckpointIO
from colossalai.interface import ModelWrapper
from .accelerator import Accelerator
from .mixed_precision import MixedPrecision, mixed_precision_factory
from .plugin import Plugin
__all__ = ['Booster']
class Booster:
"""
Booster is a high-level API for training neural networks. It provides a unified interface for
training with different precision, accelerator, and plugin.
Examples:
```python
colossalai.launch(...)
plugin = GeminiPlugin(...)
booster = Booster(precision='fp16', plugin=plugin)
model = GPT2()
optimizer = HybridAdam(model.parameters())
dataloader = Dataloader(Dataset)
lr_scheduler = LinearWarmupScheduler()
criterion = GPTLMLoss()
model, optimizer, lr_scheduler, dataloader = booster.boost(model, optimizer, lr_scheduler, dataloader)
for epoch in range(max_epochs):
for input_ids, attention_mask in dataloader:
outputs = model(input_ids, attention_mask)
loss = criterion(outputs.logits, input_ids)
booster.backward(loss, optimizer)
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
```
Args:
device (str or torch.device): The device to run the training. Default: 'cuda'.
mixed_precision (str or MixedPrecision): The mixed precision to run the training. Default: None.
If the argument is a string, it can be 'fp16', 'fp16_apex', 'bf16', or 'fp8'.
'fp16' would use PyTorch AMP while `fp16_apex` would use Nvidia Apex.
plugin (Plugin): The plugin to run the training. Default: None.
"""
def __init__(self,
device: str = 'cuda',
mixed_precision: Union[MixedPrecision, str] = None,
plugin: Optional[Plugin] = None) -> None:
if plugin is not None:
assert isinstance(
plugin, Plugin), f'Expected the argument plugin to be an instance of Plugin, but got {type(plugin)}.'
self.plugin = plugin
# set accelerator
if self.plugin and self.plugin.control_device():
self.accelerator = None
warnings.warn('The plugin will control the accelerator, so the device argument will be ignored.')
else:
self.accelerator = Accelerator(device)
# set precision
if self.plugin and self.plugin.control_precision():
warnings.warn('The plugin will control the precision, so the mixed_precision argument will be ignored.')
self.mixed_precision = None
elif mixed_precision is None:
self.mixed_precision = None
else:
# validate and set precision
if isinstance(mixed_precision, str):
# the user will take the default arguments for amp training
self.mixed_precision = mixed_precision_factory(mixed_precision)
elif isinstance(mixed_precision, MixedPrecision):
# the user can customize the arguments by passing the precision object
self.mixed_precision = mixed_precision
else:
raise ValueError(
f'Expected the argument mixed_precision to be a string or an instance of Precision, but got {type(mixed_precision)}.'
)
if self.plugin is not None and self.plugin.control_checkpoint_io():
self.checkpoint_io = self.plugin.get_checkpoint_io()
else:
self.checkpoint_io = GeneralCheckpointIO()
def boost(
self,
model: nn.Module,
optimizer: Optional[Optimizer] = None,
criterion: Optional[Callable] = None,
dataloader: Optional[DataLoader] = None,
lr_scheduler: Optional[LRScheduler] = None,
) -> List[Union[nn.Module, Optimizer, LRScheduler, DataLoader]]:
"""
Boost the model, optimizer, criterion, lr_scheduler, and dataloader.
Args:
model (nn.Module): The model to be boosted.
optimizer (Optimizer): The optimizer to be boosted.
criterion (Callable): The criterion to be boosted.
dataloader (DataLoader): The dataloader to be boosted.
lr_scheduler (LRScheduler): The lr_scheduler to be boosted.
"""
# TODO(FrankLeeeee): consider multi-model and multi-optimizer case
# TODO(FrankLeeeee): consider multi-dataloader case
# transform model for mixed precision
if self.plugin:
model, optimizer, criterion, dataloader, lr_scheduler = self.plugin.configure(
model, optimizer, criterion, dataloader, lr_scheduler)
if self.plugin and not self.plugin.control_device():
# transform model for accelerator
model = self.accelerator.configure(model)
if self.mixed_precision and (self.plugin is None or self.plugin and not self.plugin.control_precision()):
# transform model for mixed precision
# when mixed_precision is specified and the plugin is not given or does not control the precision
model, optimizer, criterion = self.mixed_precision.configure(model, optimizer, criterion)
return model, optimizer, criterion, dataloader, lr_scheduler
def backward(self, loss: torch.Tensor, optimizer: Optimizer) -> None:
"""Backward pass.
Args:
loss (torch.Tensor): The loss to be backpropagated.
optimizer (Optimizer): The optimizer to be updated.
"""
# TODO: implement this method with plugin
optimizer.backward(loss)
def execute_pipeline(self,
data_iter: Iterator,
model: nn.Module,
criterion: Callable[[torch.Tensor], torch.Tensor],
optimizer: Optimizer,
return_loss: bool = True,
return_outputs: bool = False) -> Tuple[Optional[torch.Tensor], ...]:
# TODO: implement this method
# run pipeline forward backward pass
# return loss or outputs if needed
pass
def no_sync(self, model: nn.Module) -> contextmanager:
"""Context manager to disable gradient synchronization across DP process groups.
Args:
model (nn.Module): The model to be disabled gradient synchronization.
Returns:
contextmanager: Context to disable gradient synchronization.
"""
assert self.plugin is not None, f'no_sync is only enabled when a plugin is provided and the plugin supports no_sync.'
assert self.plugin.support_no_sync, f'The plugin {self.plugin.__class__.__name__} does not support no_sync.'
return self.plugin.no_sync(model)
def load_model(self, model: Union[nn.Module, ModelWrapper], checkpoint: str, strict: bool = True):
"""Load model from checkpoint.
Args:
model (nn.Module or ModelWrapper): A model boosted by Booster.
checkpoint (str): Path to the checkpoint. It must be a local path.
It should be a directory path if the checkpoint is sharded. Otherwise, it should be a file path.
strict (bool, optional): whether to strictly enforce that the keys
in :attr:`state_dict` match the keys returned by this module's
:meth:`~torch.nn.Module.state_dict` function. Defaults to True.
"""
self.checkpoint_io.load_model(model, checkpoint, strict)
def save_model(self,
model: Union[nn.Module, ModelWrapper],
checkpoint: str,
shard: bool = False,
gather_dtensor: bool = True,
prefix: Optional[str] = None,
size_per_shard: int = 1024,
use_safetensors: bool = False):
"""Save model to checkpoint.
Args:
model (nn.Module or ModelWrapper): A model boosted by Booster.
checkpoint (str): Path to the checkpoint. It must be a local path.
It is a file path if ``shard=False``. Otherwise, it is a directory path.
shard (bool, optional): Whether to save checkpoint a sharded way.
If true, the checkpoint will be a folder. Otherwise, it will be a single file. Defaults to False.
gather_dtensor (bool, optional): whether to gather the distributed tensor to the first device. Default: True.
prefix (str, optional): A prefix added to parameter and buffer
names to compose the keys in state_dict. Defaults to None.
size_per_shard (int, optional): Maximum size of checkpoint shard file in MB. This is useful only when ``shard=True``. Defaults to 1024.
use_safetensors (bool, optional): whether to use safe tensors. Default: False. If set to True, the checkpoint will be saved.
"""
self.checkpoint_io.save_model(model,
checkpoint=checkpoint,
shard=shard,
gather_dtensor=gather_dtensor,
prefix=prefix,
size_per_shard=size_per_shard,
use_safetensors=use_safetensors)
def load_optimizer(self, optimizer: Optimizer, checkpoint: str):
"""Load optimizer from checkpoint.
Args:
optimizer (Optimizer): An optimizer boosted by Booster.
checkpoint (str): Path to the checkpoint. It must be a local path.
It should be a directory path if the checkpoint is sharded. Otherwise, it should be a file path.
prefix (str, optional): A prefix added to parameter and buffer
names to compose the keys in state_dict. Defaults to None.
size_per_shard (int, optional): Maximum size of checkpoint shard file in MB. This is useful only when ``shard=True``. Defaults to 1024.
"""
self.checkpoint_io.load_optimizer(optimizer, checkpoint)
def save_optimizer(self,
optimizer: Optimizer,
checkpoint: str,
shard: bool = False,
gather_dtensor: bool = True,
prefix: Optional[str] = None,
size_per_shard: int = 1024):
"""
Save optimizer to checkpoint.
Args:
optimizer (Optimizer): An optimizer boosted by Booster.
checkpoint (str): Path to the checkpoint. It must be a local path.
It is a file path if ``shard=False``. Otherwise, it is a directory path.
shard (bool, optional): Whether to save checkpoint a sharded way.
If true, the checkpoint will be a folder. Otherwise, it will be a single file. Defaults to False.
gather_dtensor (bool): whether to gather the distributed tensor to the first device. Default: True.
prefix (str, optional): A prefix added to parameter and buffer
names to compose the keys in state_dict. Defaults to None.
size_per_shard (int, optional): Maximum size of checkpoint shard file in MB. This is useful only when ``shard=True``. Defaults to 1024.
"""
self.checkpoint_io.save_optimizer(optimizer, checkpoint, shard, gather_dtensor, prefix, size_per_shard)
def save_lr_scheduler(self, lr_scheduler: LRScheduler, checkpoint: str):
"""Save lr scheduler to checkpoint.
Args:
lr_scheduler (LRScheduler): A lr scheduler boosted by Booster.
checkpoint (str): Path to the checkpoint. It must be a local file path.
"""
self.checkpoint_io.save_lr_scheduler(lr_scheduler, checkpoint)
def load_lr_scheduler(self, lr_scheduler: LRScheduler, checkpoint: str):
"""Load lr scheduler from checkpoint.
Args:
lr_scheduler (LRScheduler): A lr scheduler boosted by Booster.
checkpoint (str): Path to the checkpoint. It must be a local file path.
"""
self.checkpoint_io.load_lr_scheduler(lr_scheduler, checkpoint)