mirror of https://github.com/hpcaitech/ColossalAI
88 lines
3.8 KiB
Python
88 lines
3.8 KiB
Python
import functools
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import torch
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import types
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from colossalai.utils.cuda import get_current_device
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from colossalai.gemini.tensor_utils import colo_model_data_tensor_move_inline, colo_tensor_mem_usage
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from colossalai.gemini.stateful_tensor import StatefulTensor, TensorState
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from colossalai.gemini.tensor_placement_policy import TensorPlacementPolicy
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from typing import List
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from colossalai.logging import get_dist_logger
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class StatefulTensorMgr(object):
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"""
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Stateful Tensor Manager, inspired from PatrickStar
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PatrickStar: Parallel Training of Pre-trained Models via Chunk-based Memory Management
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https://arxiv.org/abs/2108.05818
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"""
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def __init__(self, tensor_placement_policy: TensorPlacementPolicy) -> None:
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self._tensor_placement_policy: TensorPlacementPolicy = tensor_placement_policy
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self._stateful_tensor_list: List[StatefulTensor] = []
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self._logger = get_dist_logger("StatefulTensorMgr")
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self._warmup = True
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self._compute_list: List[StatefulTensor] = []
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self._compute_idx: int = -1
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self._cpu_gpu_move_volume = 0
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def register_stateful_param(self, param) -> None:
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from colossalai.zero.sharded_param.sharded_param import ShardedParamV2
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assert isinstance(param, ShardedParamV2)
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for t in param.get_payload_tensors():
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assert isinstance(t, StatefulTensor)
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self._stateful_tensor_list.append(t)
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t.trans_state = types.MethodType(functools.partial(self._trans_state, t.trans_state), t)
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def adjust_layout(self) -> None:
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""" Adjust the layout of statefuil tensor according to the information provided
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by mem_stats_collector, which should belongs to a Sharded Model.
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"""
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# find stateful tensor in state COMPUTE
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cuda_demand = 0
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move_to_cuda_tensor_list = []
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hold_cuda_tensor_list = []
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for tensor in self._stateful_tensor_list:
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if tensor.state == TensorState.FREE:
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continue
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if tensor.device.type == 'cuda':
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if tensor.state in [TensorState.HOLD, TensorState.HOLD_AFTER_BWD, TensorState.HOLD_AFTER_FWD]:
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hold_cuda_tensor_list.append(tensor)
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elif tensor.device.type == 'cpu':
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if tensor.state == TensorState.COMPUTE:
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move_to_cuda_tensor_list.append(tensor)
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cuda_demand += colo_tensor_mem_usage(tensor.payload)[1]
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else:
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raise RuntimeError
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self._cpu_gpu_move_volume += self._tensor_placement_policy.evict_tensors(hold_cuda_tensor_list,
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cuda_demand=cuda_demand,
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warmup=self._warmup,
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compute_list=self._compute_list,
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compute_idx=self._compute_idx)
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# move COMPUTE tensors to CUDA
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for t in move_to_cuda_tensor_list:
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colo_model_data_tensor_move_inline(t, get_current_device())
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self._cpu_gpu_move_volume += t.payload.numel() * t.payload.element_size()
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@property
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def cpu_gpu_move_volume(self):
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return self._cpu_gpu_move_volume
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def reset(self):
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"""This function must be called when each iteration finishes
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"""
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self._warmup = False
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self._compute_idx = -1
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self._cpu_gpu_move_volume = 0
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def _trans_state(self, trans_state_func, stateful_tensor, state):
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trans_state_func(state)
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if state == TensorState.COMPUTE:
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self._compute_idx += 1
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if self._warmup:
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self._compute_list.append(stateful_tensor)
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