mirror of https://github.com/hpcaitech/ColossalAI
117 lines
4.0 KiB
Python
117 lines
4.0 KiB
Python
from collections import OrderedDict
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from typing import Any, Callable, Dict, List, Tuple, Union
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import torch
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import torch.nn.functional as F
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def get_gradient_predivide_factor(world_size: int) -> float:
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factor: int = 1
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while world_size % factor == 0 and world_size / factor > factor:
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factor *= 2
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return float(factor)
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def get_shard(tensor: torch.Tensor, rank: int, world_size: int) -> Tuple[torch.Tensor, int]:
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"""Return the local shard of a full tensor."""
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# Shard using torch.chunk to match all-gather/reduce-scatter.
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chunks = list(torch.flatten(tensor).chunk(world_size))
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while len(chunks) < world_size:
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chunks.append(chunks[0].new_empty(0))
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# Determine number of padding elements.
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num_to_pad = chunks[0].numel() - chunks[rank].numel()
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assert num_to_pad >= 0, num_to_pad
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shard = chunks[rank].clone()
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if num_to_pad > 0:
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shard = F.pad(shard, [0, num_to_pad])
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return shard, num_to_pad
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def free_storage(data: torch.Tensor) -> None:
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"""Free underlying storage of a Tensor."""
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if data.storage().size() > 0:
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# Since we're modifying the Tensor's Storage directly, make sure the Tensor
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# is the sole occupant of the Storage.
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assert data.storage_offset() == 0
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data.storage().resize_(0)
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@torch.no_grad()
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def alloc_storage(data: torch.Tensor, size: torch.Size) -> None:
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"""Allocate storage for a tensor."""
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if data.storage().size() == size.numel(): # no need to reallocate
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return
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assert data.storage().size() == 0
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data.storage().resize_(size.numel())
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def cast_tensor_to_fp16(tensor: torch.Tensor) -> torch.Tensor:
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if torch.is_floating_point(tensor) and tensor.dtype is torch.float32:
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return tensor.half()
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return tensor
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def cast_tensor_to_fp32(tensor: torch.Tensor) -> torch.Tensor:
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if torch.is_floating_point(tensor) and tensor.dtype is torch.float16:
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return tensor.float()
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return tensor
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def apply_to_tensors(x: Any, fn: Callable):
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if torch.is_tensor(x):
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return fn(x)
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elif isinstance(x, list):
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return [apply_to_tensors(t, fn) for t in x]
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elif isinstance(x, tuple):
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return tuple(apply_to_tensors(t, fn) for t in x)
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elif isinstance(x, dict):
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return {key: apply_to_tensors(val, fn) for key, val in x.items()}
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else:
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return x
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def cast_float_arguments(fn: Callable, *args: Any, **kwargs: Any) -> Tuple[Any, Any]:
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return apply_to_tensors(args, fn), apply_to_tensors(kwargs, fn)
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def chunk_and_pad(tensor: torch.Tensor, num_chunks: int) -> List[torch.Tensor]:
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"""Chunk a given Tensor into num_chunks parts and add any necessary padding."""
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chunks = list(torch.flatten(tensor).chunk(num_chunks))
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# torch.chunk may return fewer than num_chunks chunks, pad accordingly.
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num_pad_for_partial_chunk = chunks[0].numel() - chunks[-1].numel()
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if num_pad_for_partial_chunk > 0:
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chunks[-1] = F.pad(chunks[-1], [0, num_pad_for_partial_chunk])
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if len(chunks) < num_chunks:
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chunks.extend([torch.zeros_like(chunks[0]) for _ in range(num_chunks - len(chunks))])
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return chunks
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def assert_in_engine(cond: Any, s: Any) -> None:
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"""Used in backward context to make sure error is printed."""
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if not cond:
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print(s)
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raise AssertionError
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def replace_state_dict_prefix(state_dict: Union[Dict[str, torch.Tensor], "OrderedDict[str, torch.Tensor]"],
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old_prefix: str, new_prefix: str) -> None:
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"""
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Replace all keys that match a given old_prefix with a new_prefix (in-place).
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Usage::
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state_dict = {"layer.xyz": torch.tensor(1)}
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replace_state_dict_prefix(state_dict, "layer.", "module.layer.")
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assert state_dict == {"module.layer.xyz": torch.tensor(1)}
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"""
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if old_prefix == new_prefix:
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raise ValueError("old_prefix and new_prefix must be distinct")
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for key in list(state_dict.keys()):
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if not key.startswith(old_prefix):
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continue
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new_key = new_prefix + key[len(old_prefix):]
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state_dict[new_key] = state_dict[key]
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del state_dict[key]
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