from typing import Tuple, Union import torch from .stateful_tensor import StatefulTensor def is_storage_empty(tensor: torch.Tensor) -> bool: return tensor.storage().size() == 0 def free_storage(tensor: torch.Tensor) -> None: if not is_storage_empty(tensor): tensor.storage().resize_(0) def alloc_storage(tensor: torch.Tensor) -> None: if is_storage_empty(tensor): tensor.storage().resize_(tensor.numel()) def colo_tensor_mem_usage(tensor: Union[torch.Tensor, StatefulTensor]) -> Tuple[int, int]: if isinstance(tensor, StatefulTensor): t = tensor.payload elif isinstance(tensor, torch.Tensor): t = tensor else: return 0, 0 cuda_use, cpu_use = 0, 0 mem_use = t.storage().size() * t.element_size() if t.device.type == 'cuda': cuda_use += mem_use elif t.device.type == 'cpu': cpu_use += mem_use return cuda_use, cpu_use def colo_model_data_tensor_move(src_t: Union[StatefulTensor, torch.Tensor], tgt_t: Union[StatefulTensor, torch.Tensor]) -> None: """ A colossal API for model data tensor move. The src and target tensors could be resident on both CPU and GPU. NOTE() The source tensor payload will be removed after this function. The function will record the communication volume between CPU and GPU. Args: src_t (Union[StatefulTensor, torch.Tensor]): source tensor tgt_t (Union[StatefulTensor, torch.Tensor]): target tensor """ if isinstance(src_t, StatefulTensor): src_t_payload = src_t.payload else: src_t_payload = src_t.data src_dev = src_t_payload.device if isinstance(tgt_t, StatefulTensor): tgt_t_payload = tgt_t.payload else: tgt_t_payload = tgt_t.data tgt_t_payload.copy_(src_t_payload) # remove payload of src_t if isinstance(src_t, StatefulTensor): src_t.set_null() else: src_t.data = torch.empty(0, device=src_dev, dtype=src_t_payload.dtype) def colo_model_data_tensor_move_inline(t: Union[StatefulTensor, torch.Tensor], target_device: Union[torch.device, int]) -> None: """ move a tensor to the target_device Args: t (Union[StatefulTensor, torch.Tensor]): the tensor be moved target_device: a target device, if type is int, it the index of cuda card. """ if not isinstance(target_device, torch.device): target_device = torch.device(f'cuda:{target_device}') if isinstance(t, torch.Tensor): t.data = t.data.to(target_device) elif isinstance(t, StatefulTensor): t.move_to(target_device) else: raise TypeError(f'colo_model_data_tensor_move_inline dose not accept type {type(t)}') def colo_model_data_move_to_cpu(t: Union[StatefulTensor, torch.Tensor]) -> None: """colo_model_data_move_to_cpu move a model data tensor from gpu to cpu Args: t (Union[StatefulTensor, torch.Tensor]): _description_ """ # TODO() optimize the tensor moving with non-blocking if isinstance(t, torch.Tensor): t.data = t.data.cpu() elif isinstance(t, StatefulTensor): t.move_to(torch.device('cpu')) else: raise TypeError(f'colo_model_data_move_to_cpu dose not accept type {type(t)}') def colo_model_tensor_clone(t: Union[StatefulTensor, torch.Tensor], target_device: torch.device) -> torch.Tensor: """ Clone a model data tensor Args: t (Union[StatefulTensor, torch.Tensor]): a model data tensor target_device (torch.device): the target device Returns: torch.Tensor: a cloned torch tensor """ # TODO() rename this function colo_model_data_tensor_move_inline(t, target_device) t_payload = t.payload if isinstance(t, StatefulTensor) else t return t_payload