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ColossalAI/colossalai/gemini/tensor_placement_policy.py

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from abc import ABC, abstractmethod
from time import time
from typing import List, Optional
import torch
from colossalai.utils import get_current_device
from colossalai.utils.memory import colo_device_memory_capacity
from colossalai.gemini.tensor_utils import colo_model_data_tensor_move_inline, colo_tensor_mem_usage
from colossalai.gemini.stateful_tensor import StatefulTensor
from colossalai.gemini.memory_tracer import MemStatsCollector
from typing import Type
import functools
class TensorPlacementPolicy(ABC):
def __init__(self, device: Optional[torch.device], mem_stats_collector: Optional[MemStatsCollector] = None) -> None:
self.device: Optional[torch.device] = device
self.mem_stats_collector: Optional[MemStatsCollector] = mem_stats_collector
@abstractmethod
def evict_tensors(self, hold_cuda_tensor_list: List[StatefulTensor], **kwargs) -> None:
raise NotImplementedError
class CPUTensorPlacementPolicy(TensorPlacementPolicy):
def __init__(self, mem_stats_collector: Optional[MemStatsCollector] = None) -> None:
super().__init__(torch.device('cpu'), mem_stats_collector=mem_stats_collector)
def evict_tensors(self, hold_cuda_tensor_list: List[StatefulTensor], **kwargs) -> int:
volume = 0
for t in hold_cuda_tensor_list:
colo_model_data_tensor_move_inline(t, self.device)
volume += t.payload.numel() * t.payload.element_size()
return volume, 0
class CUDATensorPlacementPolicy(TensorPlacementPolicy):
def __init__(self, mem_stats_collector: Optional[MemStatsCollector] = None) -> None:
assert torch.cuda.is_available(), 'Cannot use CUDATensorPlacementPolicy when CUDA is not available'
super().__init__(get_current_device(), mem_stats_collector=mem_stats_collector)
def evict_tensors(self, hold_cuda_tensor_list: List[StatefulTensor], **kwargs) -> int:
return 0, 0
class AutoTensorPlacementPolicy(TensorPlacementPolicy):
def __init__(self, mem_stats_collector: Optional[MemStatsCollector] = None) -> None:
super().__init__(None, mem_stats_collector=mem_stats_collector)
# model data will use 1-self._warmup_non_model_data_ratio CUDA memory in warmup phase
# TODO(ver217): make these args configurable
self._warmup_non_model_data_ratio: float = 0.8
self._steady_cuda_cap_ratio: float = 0.9
def evict_tensors(self,
hold_cuda_tensor_list: List[StatefulTensor],
cuda_demand: int = 0,
warmup: bool = True,
compute_list: List[StatefulTensor] = [],
compute_idx: int = 0,
**kwargs) -> int:
"""
Evict tensors from CUDA device.
Args:
hold_cuda_tensor_list (List[StatefulTensor]): the list of tensor in state of HOLD-like
cuda_demand (int, optional): the volume of data needed on cuda device. Defaults to 0.
warmup (bool, optional): a flag indicates whether in the phase of warmup. Defaults to True.
compute_list (List[StatefulTensor], optional): TODO. Defaults to [].
compute_idx (int, optional): the idx of computing device. Defaults to 0.
Raises:
RuntimeError:
Returns:
int: the volume of memory that is evicted
"""
start = time()
cuda_capacity = colo_device_memory_capacity(get_current_device())
used_cuda_model_data = StatefulTensor.GST_MGR.total_mem['cuda']
if warmup:
# We designate a part of CUDA memory for model data in warmup iterations.
max_cuda_non_model_data_per_period = cuda_capacity * self._warmup_non_model_data_ratio
else:
# max non-model-data cuda memory consumption of this sampling moment and the next sampling moment.
max_cuda_non_model_data_per_period = self.mem_stats_collector.next_period_non_model_data_usage('cuda')
cuda_capacity *= self._steady_cuda_cap_ratio
total_cuda_model_data = cuda_capacity - max_cuda_non_model_data_per_period
avail_cuda_model_data = total_cuda_model_data - used_cuda_model_data
freed_cuda_model_data = 0
end = time()
if avail_cuda_model_data < cuda_demand:
# Move cuda_demand - avail_cuda_model_data volume of tensors
# to_free_cuda_model_data = cuda_demand - avail_cuda_model_data
to_free_cuda_model_data = cuda_demand - avail_cuda_model_data
to_free_tensor_list = hold_cuda_tensor_list
if not warmup:
to_free_tensor_list = self._sort_hold_cuda_tensors(tuple(hold_cuda_tensor_list), compute_idx,
tuple(compute_list))
# print(self._sort_hold_cuda_tensors.cache_info())
end = time()
for t in to_free_tensor_list:
if freed_cuda_model_data >= to_free_cuda_model_data:
break
freed_cuda_model_data += t.payload_size
colo_model_data_tensor_move_inline(t, torch.device('cpu'))
if freed_cuda_model_data < to_free_cuda_model_data:
raise RuntimeError(
f"Adjust layout failed! No enough CUDA memory! Need {to_free_cuda_model_data}, freed {freed_cuda_model_data}"
)
return freed_cuda_model_data, end - start
@staticmethod
@functools.lru_cache(maxsize=None)
def _sort_hold_cuda_tensors(hold_cuda_tensors: tuple, compute_idx: int, compute_list: tuple) -> list:
next_compute_idx = {t: len(compute_list) for t in hold_cuda_tensors}
for i in range(len(compute_list) - 1, compute_idx, -1):
if compute_list[i] in next_compute_idx:
next_compute_idx[compute_list[i]] = i
next_compute_idx = sorted(next_compute_idx.items(), key=lambda pair: pair[1], reverse=True)
return [t for (t, idx) in next_compute_idx]
class TensorPlacementPolicyFactory:
@staticmethod
def create(policy_name: str) -> Type[TensorPlacementPolicy]:
if policy_name == 'cpu':
return CPUTensorPlacementPolicy
elif policy_name == 'cuda':
return CUDATensorPlacementPolicy
elif policy_name == 'auto':
return AutoTensorPlacementPolicy
else:
raise TypeError(f"Unknown tensor placement policy {policy_name}")
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