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311 lines
12 KiB
311 lines
12 KiB
from .op_wrapper import _COLOSSAL_OPS
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from .const import TensorType
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from copy import copy
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import torch
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from functools import lru_cache
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from colossalai.tensor import ColoTensorSpec
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from colossalai.tensor import ProcessGroup, ReplicaSpec
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from colossalai.tensor.dist_spec_mgr import DistSpecManager
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from colossalai.tensor.distspec import _DistSpec, DistPlacementPattern
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from typing import Optional, Set, Callable
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@lru_cache(None)
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def _get_my_nowrap_functions() -> Set[Callable]:
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Tensor = torch.Tensor
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return {
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Tensor._base.__get__,
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Tensor.grad.__get__,
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Tensor._grad.__get__,
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Tensor.data.__get__, # make .data returns torch.Tensor rather than ColoTensor
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}
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def _convert_output(output, colo_spec: ColoTensorSpec):
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if type(output) == torch.Tensor:
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return ColoTensor.from_torch_tensor(output, colo_spec)
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elif isinstance(output, (list, tuple)):
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return type(output)(_convert_output(o, colo_spec) for o in output)
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else:
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return output
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def _get_spec_from_args(args, kwargs) -> ColoTensorSpec:
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for elem in args:
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if isinstance(elem, ColoTensor):
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pg = elem.get_process_group()
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dp = elem.dist_spec
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return ColoTensorSpec(pg, dp)
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elif isinstance(elem, (list, tuple)):
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spec = _get_spec_from_args(elem, {})
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if spec is not None:
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return spec
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for k, v in kwargs.items():
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if isinstance(v, ColoTensor):
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pg = v.get_process_group()
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dp = v.dist_spec
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return ColoTensorSpec(pg, dp)
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return None
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class ColoTensor(torch.Tensor):
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""" Data Structure for Tensor in Colossal-AI. It is a subclass of torch.Tensor.
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The Colotensor can be initialized with a PyTorch tensor in the following ways.
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>>> pg = ProcessGroup()
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>>> colo_t1 = ColoTensor(torch.randn(2,3), spec = ColoTensorSpec(pg, ReplicaSpec())
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>>> # The tensor passed in is a tensor after sharding but not a global tensor.
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>>> shard_spec = ShardSpec(process_group=ProcessGroup(tp=world_size),
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>>> dims=[0],
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>>> num_partitions=[world_size])
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>>> tensor_spec = ColoTensorSpec(pg, shard_spec)
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>>> colo_t2 = ColoTensor.from_torch_tensor(t_ref.clone(), tensor_spec)
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Args:
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data (torch.Tensor): a torch tensor used as the payload the colotensor.
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spec (ColoTensorSpec, optional): the tensor spec of initialization. Defaults to ColoTensorSpec(ReplicaSpec()).
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"""
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def __new__(cls, data: torch.Tensor, spec: ColoTensorSpec) -> 'ColoTensor':
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"""
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The signature of the __new__ has to be consistent with the torch.Tensor.
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Args:
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data (torch.Tensor): a torch tensor used as the payload the colotensor.
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spec (TensorSpec, optional): the tensor spec of initialization.
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Returns:
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ColoTensor: a ColoTensor wrappers the data.
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"""
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if data is None:
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data = torch.empty(0)
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return torch.Tensor._make_subclass(cls, data, data.requires_grad)
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def __init__(self, data: torch.Tensor, spec: Optional[ColoTensorSpec] = None) -> None:
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# If not set spec, use a DP process group and replicate dist spec
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if spec is None:
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self.has_initialized = False
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self.dist_spec = ReplicaSpec()
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self.compute_spec = None
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self.process_group = ProcessGroup()
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else:
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self.has_initialized = True
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self.dist_spec = spec.dist_attr
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self.compute_spec = spec.compute_attr
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if spec.pg is None:
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self.process_group = ProcessGroup()
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else:
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self.process_group = spec.pg
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self._type = TensorType.NONMODEL
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self._graph_node = None
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def has_compute_spec(self) -> bool:
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return self.compute_spec is not None
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def is_model_data(self) -> bool:
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return self._type == TensorType.MODEL
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def get_process_group(self) -> 'ProcessGroup':
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return self.process_group
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def set_process_group(self, pg: ProcessGroup):
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"""set_process_group
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change the pg of the ColoTensor. Note that the valid use cases is limited.
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Only existing pg is DP and dist spec is REPLICaTE is valid.
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Args:
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pg (ProcessGroup): target pg
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"""
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assert isinstance(pg, ProcessGroup), f"pg as type {type(pg)} is invalid"
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# if the new pg is the same as the old pg, just returns
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if self.process_group == pg:
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return
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assert self.process_group.tp_world_size() == 1, \
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"Can not set_process_group on a ColoTensor whose process_group has tp world group"
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assert self.dist_spec.placement.value == 'r', \
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"Can not set_process_group on a ColoTensor whose dist spec is not REPLICATE"
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self.process_group = pg
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def get_tp_world_size(self) -> int:
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return self.process_group.tp_world_size()
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def set_dist_spec(self, dist_spec: _DistSpec):
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"""set_dist_spec
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set dist spec and change the payloads.
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Args:
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dist_spec (_DistSpec): target dist spec.
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"""
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assert isinstance(dist_spec, _DistSpec)
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assert self.process_group is not None
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self._redistribute(dist_spec)
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def set_tensor_spec(self, dist_spec, compute_spec):
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if dist_spec is not None:
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assert isinstance(dist_spec, _DistSpec), f"{type(dist_spec)}"
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self.set_dist_spec(dist_spec)
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if compute_spec is not None:
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self.compute_spec = compute_spec
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def has_compute_pattern(self, compute_pattern):
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return self.compute_spec.compute_pattern == compute_pattern
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@classmethod
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def __torch_function__(cls, func, types, args=(), kwargs=None):
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if kwargs is None:
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kwargs = {}
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if not all(issubclass(cls, t) for t in types):
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return NotImplemented
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global _COLOSSAL_OPS
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if func in _COLOSSAL_OPS:
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func = _COLOSSAL_OPS[func]
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with torch._C.DisableTorchFunction():
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ret = func(*args, **kwargs)
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if func in _get_my_nowrap_functions():
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return ret
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else:
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colo_spec = _get_spec_from_args(args, kwargs)
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return _convert_output(ret, colo_spec)
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def __repr__(self):
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return f'ColoTensor:\n{super().__repr__()}\n{self.dist_spec}\n{self.process_group}\n{self.compute_spec}'
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def _redistribute(self, dist_spec: _DistSpec) -> None:
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"""_redistribute
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Note the function will not handle the logic of backward propagation!
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It is used during model tensor initializations as an internal function.
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Args:
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dist_spec (_DistSpec): the target dist. spec.
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"""
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assert self.grad_fn is None, "Current tensor has grad_fn and it can't get converted"
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with DistSpecManager.no_grad():
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self.data = DistSpecManager.handle_trans_spec(self.data, self.dist_spec, dist_spec, self.process_group)
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self.dist_spec = dist_spec
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def redistribute(self, dist_spec: _DistSpec, pg: Optional[ProcessGroup] = None) -> 'ColoTensor':
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"""redistribute
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Redistribute the tensor among processes. The rule is like this:
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1. If the pg is None, then redistribute the tensor payload among the TP process group. Keep the
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DP process group not changed.
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2. If the pg is not not None and not equal to the current process group.
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First, convert the tensor as replicated among the TP process group.
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Second, reset the process group to the new pg.
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Third, conver the tensor (new replicated both among the tp process group) to the new dist_spec.
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Args:
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dist_spec (_DistSpec): the new dist spec.
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pg (Optional[ProcessGroup], optional): the new process group . Defaults to None.
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Returns:
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ColoTensor: a redistributed colotensor
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"""
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if pg is not None and pg != self.get_process_group():
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# if the pg is not equal, convert the current tensor to replicated
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handled = self.redistribute(ReplicaSpec())
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else:
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handled = self
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pg = self.process_group
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ret = DistSpecManager.handle_trans_spec(handled, handled.dist_spec, dist_spec, pg)
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return ColoTensor.from_torch_tensor(ret, ColoTensorSpec(pg=pg, dist_attr=dist_spec))
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def to_replicate_(self):
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"""to_replicate_
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an inline member function, converting dist spec of the tensor to REPLICATE
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"""
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self._redistribute(dist_spec=ReplicaSpec())
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def to_replicate(self) -> 'ColoTensor':
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"""to_replicate
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converting dist spec of the tensor to ReplicaSpec()
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"""
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return self.redistribute(ReplicaSpec())
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@staticmethod
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def from_torch_tensor(tensor: torch.Tensor, spec: Optional[ColoTensorSpec] = None) -> 'ColoTensor':
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"""from_torch_tensor
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A static method builds a `ColoTensor` from a PyTorch Tensor.
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Args:
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tensor (torch.Tensor): the pytorch tensor, which is a local tensor for this rank not a global tensor.
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spec (Optional[ColoTensorSpec], optional): tensor spec. Defaults to None.
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Returns:
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ColoTensor: a ColoTensor
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"""
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tensor = tensor.as_subclass(ColoTensor)
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tensor.__init__(tensor, spec=spec)
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return tensor
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def __deepcopy__(self, memo):
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if id(self) in memo:
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return memo[id(self)]
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else:
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with torch._C.DisableTorchFunction():
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data = self.data.clone()
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tensor = ColoTensor(data, spec=copy(ColoTensorSpec(self.process_group, self.dist_spec, self.compute_spec)))
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memo[id(self)] = tensor
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return tensor
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# override builtin functions which must use tensor in replicate placement #
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def size_local(self, *args) -> torch.Size:
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with torch._C.DisableTorchFunction():
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return super().size(*args)
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def size_global(self, *args) -> torch.Size:
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"""size_global
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override the torch buildin size()
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the shape passed in must be in a replicate placement.
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Returns:
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torch.Size: the global tensor shape
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"""
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if self.is_replicate():
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return self.size_local(*args)
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spec = self.dist_spec
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dims = spec.dims
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num_partitions = spec.num_partitions
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# import inspect
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# print(*['{:40}| {}:{}\n'.format(x.function, x.filename, x.lineno) for x in inspect.stack()])
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size_list = list(self.size_local())
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for dim, num_partition in zip(dims, num_partitions):
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size_list[dim] *= num_partition
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if args == ():
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return torch.Size(size_list)
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else:
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return size_list[args[0]]
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# Some API for dist spec check
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def is_replicate(self):
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return self.dist_spec.placement == DistPlacementPattern.REPLICATE \
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or (len(self.dist_spec.num_partitions) == 1
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and self.dist_spec.num_partitions[0] == 1) \
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or (self.process_group.tp_world_size() == 1)
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def is_shard_1dcol(self):
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return self.dist_spec.placement == DistPlacementPattern.SHARD \
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and len(self.dist_spec.dims) == 1 and self.dist_spec.dims[0] == -1
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def is_shard_1drow(self):
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return self.dist_spec.placement == DistPlacementPattern.SHARD \
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and len(self.dist_spec.dims) == 1 and self.dist_spec.dims[0] == 0
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def is_sharded(self):
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return self.dist_spec.placement == DistPlacementPattern.SHARD
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