from typing import Optional import torch import torch.distributed as dist from colossalai.logging import get_dist_logger from colossalai.registry import OPHOOKS from colossalai.utils import get_current_device from colossalai.zero.gemini.memory_tracer import MemStatsCollector from colossalai.zero.legacy.gemini.ophooks import BaseOpHook from colossalai.zero.legacy.gemini.stateful_tensor import TensorState from colossalai.zero.legacy.gemini.stateful_tensor_mgr import StatefulTensorMgr from colossalai.zero.legacy.shard_utils import BaseShardStrategy @OPHOOKS.register_module class ZeroHook(BaseOpHook): """ A hook to process sharded param for ZeRO method. Warning: this class has been deprecated after version 0.1.12 """ def __init__(self, shard_strategy: BaseShardStrategy, memstarts_collector: Optional[MemStatsCollector] = None, stateful_tensor_mgr: Optional[StatefulTensorMgr] = None, process_group: Optional[dist.ProcessGroup] = None): super().__init__() self.logger = get_dist_logger("ZeROHook") self.shard_strategy = shard_strategy self.process_group = process_group # NOTE(jiaruifang) Now the computing device of FWD and BWD is always on GPU self.computing_device = get_current_device() self._memstarts_collector = memstarts_collector self._stateful_tensor_mgr = stateful_tensor_mgr def gather_parameters(self, module: torch.nn.Module): # gather sharded parameters if module.param_is_sharded: tensor_list = [] for param in module.parameters(recurse=False): assert hasattr(param, 'colo_attr') tensor_list.append(param.colo_attr.sharded_data_tensor) self.shard_strategy.gather(tensor_list, self.process_group) def shard_parameters(self, module: torch.nn.Module): # shard gathered parameters if module.param_is_sharded: tensor_list = [] for param in module.parameters(recurse=False): assert hasattr(param, 'colo_attr') tensor_list.append(param.colo_attr.sharded_data_tensor) self.shard_strategy.shard(tensor_list, self.process_group) def adjust_module_data(self, module: torch.nn.Module): # record overall data statistics if self._memstarts_collector: self._memstarts_collector.sample_overall_data() for param in module.parameters(recurse=False): param.colo_attr.sharded_data_tensor.trans_state(TensorState.COMPUTE) # adjust stateful tensor to get enough CUDA memory self._stateful_tensor_mgr.adjust_layout() # record model data statistics if self._memstarts_collector: self._memstarts_collector.record_model_data_volume() def pre_fwd_exec(self, module: torch.nn.Module, *args): self.adjust_module_data(module) self.gather_parameters(module) for param in module.parameters(recurse=False): param.data = param.colo_attr.data_payload assert param.data.device.type == 'cuda', f"PRE FWD param.data must be on CUDA" def post_fwd_exec(self, module: torch.nn.Module, *args): # change tensor state to HOLD_AFTER_FWD for param in module.parameters(recurse=False): param.colo_attr.sharded_data_tensor.trans_state(TensorState.HOLD_AFTER_FWD) self.shard_parameters(module) # remove torch payload for param in module.parameters(recurse=False): param.colo_attr.set_data_none() def pre_bwd_exec(self, module: torch.nn.Module, input, output): self.adjust_module_data(module) self.gather_parameters(module) for param in module.parameters(recurse=False): param.data = param.colo_attr.data_payload assert param.data.device.type == 'cuda', f"PRE BWD param.data must be on CUDA" def post_bwd_exec(self, module: torch.nn.Module, input): # change tensor state to HOLD_AFTER_BWD for param in module.parameters(recurse=False): param.colo_attr.sharded_data_tensor.trans_state(TensorState.HOLD_AFTER_BWD) self.shard_parameters(module) # remove torch payload for param in module.parameters(recurse=False): param.colo_attr.set_data_none() def pre_iter(self): pass def post_iter(self): if self._stateful_tensor_mgr: self.logger.debug( f"CPU-GPU data moving this iteration {self._stateful_tensor_mgr.cpu_gpu_move_volume/1e9} GB, get layout info time: {self._stateful_tensor_mgr._layout_time}, evict cpu time: {self._stateful_tensor_mgr._evict_time}", ranks=[0]) self._stateful_tensor_mgr.finish_iter()