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291 lines
12 KiB
291 lines
12 KiB
from dataclasses import asdict
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from typing import Any, Dict, List, NamedTuple, Optional, Tuple
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import torch
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import torch.fx
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from torch.fx.node import Argument, Node, Target
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from torch.utils._pytree import tree_flatten
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from colossalai.fx._compatibility import compatibility
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from colossalai.fx.profiler import GraphInfo, profile_function, profile_method, profile_module
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@compatibility(is_backward_compatible=True)
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class ConcreteInfoProp(torch.fx.Interpreter):
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"""
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Execute an FX graph Node-by-Node with concrete tensor and record the memory
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usage, execution time of forward and backward, and type of the result into
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the corresponding node.
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Usage:
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BATCH_SIZE = 2
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DIM_IN = 4
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DIM_HIDDEN = 16
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DIM_OUT = 16
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model = torch.nn.Sequential(
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torch.nn.Linear(DIM_IN, DIM_HIDDEN),
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torch.nn.Linear(DIM_HIDDEN, DIM_OUT),
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).cuda()
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input_sample = torch.rand(BATCH_SIZE, DIM_IN, device="cuda")
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gm = symbolic_trace(model)
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interp = ConcreteInfoProp(gm)
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interp.run(input_sample)
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print(interp.summary(unit='kb'))
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output of above code is
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Op type Op Forward time Backward time SAVE_FWD_IN FWD_OUT FWD_TMP BWD_OUT BWD_TMP
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----------- ------- ----------------------- ------------------------ ------------- --------- --------- --------- ---------
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placeholder input_1 0.0 s 0.0 s False 0.00 KB 0.00 KB 0.00 KB 0.00 KB
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call_module _0 0.0003993511199951172 s 0.00706791877746582 s False 0.50 KB 0.00 KB 0.03 KB 0.66 KB
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call_module _1 6.29425048828125e-05 s 0.00018286705017089844 s False 0.50 KB 0.00 KB 0.12 KB 0.81 KB
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output output 0.0 s 0.0 s True 0.00 KB 0.00 KB 0.00 KB 0.00 KB
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Args:
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module (GraphModule): The module to be executed
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"""
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_is_proped: bool = False
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def run(self, *args, initial_env: Optional[Dict[Node, Any]] = None, enable_io_processing: bool = True) -> Any:
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"""Customized run for ConcreteInfoProp
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We need to store the device in self.device
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Args:
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*args: The arguments to the Module to run, in positional order
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initial_env (Optional[Dict[Node, Any]]): An optional starting environment for execution.
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This is a dict mapping `Node` to any value. This can be used, for example, to
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pre-populate results for certain `Nodes` so as to do only partial evaluation within
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the interpreter.
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enable_io_processing (bool): If true, we process the inputs and outputs with graph's process_inputs and
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process_outputs function first before using them.
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Returns:
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Any: The value returned from executing the Module
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"""
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flatten_args, _ = tree_flatten(args)
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self.device = next(item for item in flatten_args if hasattr(item, "device")).device
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return super().run(*args, initial_env, enable_io_processing)
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@compatibility(is_backward_compatible=True)
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def run_node(self, n: Node) -> Any:
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"""
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Run a specific node ``n`` and return the result.
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Calls into placeholder, get_attr, call_function,
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call_method, call_module, or output depending
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on ``node.op``
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Args:
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n (Node): The Node to execute
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Returns:
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Any: The result of executing ``n``
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"""
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self._is_proped = True
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result, meta_info = super().run_node(n)
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n.meta = {**n.meta, **asdict(meta_info)} # extend MetaInfo to `n.meta`
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# TODO: the attribute node_size should be removed in the future
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setattr(n, 'node_size', n.meta.get('fwd_mem_tmp', 0) + n.meta.get('fwd_mem_out', 0))
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n.meta['type'] = type(result)
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# retain the autograd graph
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for param in self.module.parameters():
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param.grad = None
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return result
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# Main Node running APIs
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@compatibility(is_backward_compatible=True)
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def placeholder(self, target: 'Target', args: Tuple[Argument, ...], kwargs: Dict[str, Any]) -> Any:
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"""
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Execute a ``placeholder`` node. Note that this is stateful:
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``Interpreter`` maintains an internal iterator over
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arguments passed to ``run`` and this method returns
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next() on that iterator.
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Args:
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target (Target): The call target for this node. See
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`Node <https://pytorch.org/docs/master/fx.html#torch.fx.Node>`__ for
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details on semantics
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args (Tuple): Tuple of positional args for this invocation
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kwargs (Dict): Dict of keyword arguments for this invocation
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Returns:
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result (Any): The argument value that was retrieved
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meta_info (MetaInfo): The memory cost and forward & backward time.
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"""
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return super().placeholder(target, args, kwargs), GraphInfo()
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@compatibility(is_backward_compatible=True)
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def get_attr(self, target: 'Target', args: Tuple[Argument, ...], kwargs: Dict[str, Any]) -> Any:
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"""
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Execute a ``get_attr`` node. Will retrieve an attribute
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value from the ``Module`` hierarchy of ``self.module``.
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Args:
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target (Target): The call target for this node. See
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`Node <https://pytorch.org/docs/master/fx.html#torch.fx.Node>`__ for
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details on semantics
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args (Tuple): Tuple of positional args for this invocation
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kwargs (Dict): Dict of keyword arguments for this invocation
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Return:
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result (Any): The argument value that was retrieved
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meta_info (MetaInfo): The memory cost and FLOPs estimated with `MetaTensor`.
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"""
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return super().get_attr(target, args, kwargs), GraphInfo()
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@compatibility(is_backward_compatible=True)
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def call_function(self, target: 'Target', args: Tuple[Argument, ...], kwargs: Dict[str, Any]) -> Any:
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"""
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Execute a ``call_function`` node with meta tensor and return the result and its meta profile.
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Args:
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target (Target): The call target for this node. See
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`Node <https://pytorch.org/docs/master/fx.html#torch.fx.Node>`__ for
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details on semantics
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args (Tuple): Tuple of positional args for this invocation
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kwargs (Dict): Dict of keyword arguments for this invocation
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Return
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result (Any): The argument value that was retrieved
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meta_info (MetaInfo): The memory cost and forward & backward time.
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"""
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assert not isinstance(target, str)
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return profile_function(target, self.device)(*args, **kwargs)
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@compatibility(is_backward_compatible=True)
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def call_method(self, target: 'Target', args: Tuple[Argument, ...], kwargs: Dict[str, Any]) -> Any:
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"""
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Execute a ``call_method`` node with meta tensor and return the result and its meta profile.
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Args:
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target (Target): The call target for this node. See
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`Node <https://pytorch.org/docs/master/fx.html#torch.fx.Node>`__ for
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details on semantics
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args (Tuple): Tuple of positional args for this invocation
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kwargs (Dict): Dict of keyword arguments for this invocation
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Return
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result (Any): The argument value that was retrieved
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meta_info (MetaInfo): The memory cost and forward & backward time.
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"""
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return profile_method(target, self.device)(*args, **kwargs)
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@compatibility(is_backward_compatible=True)
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def call_module(self, target: 'Target', args: Tuple[Argument, ...], kwargs: Dict[str, Any]) -> Any:
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"""
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Execute a ``call_module`` node with meta tensor and return the result and its meta profile.
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Args:
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target (Target): The call target for this node. See
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`Node <https://pytorch.org/docs/master/fx.html#torch.fx.Node>`__ for
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details on semantics
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args (Tuple): Tuple of positional args for this invocation
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kwargs (Dict): Dict of keyword arguments for this invocation
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Return
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result (Any): The argument value that was retrieved
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meta_info (MetaInfo): The memory cost and forward & backward time.
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"""
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# Retrieve executed args and kwargs values from the environment
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# Execute the method and return the result
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assert isinstance(target, str)
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submod = self.fetch_attr(target)
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return profile_module(submod, self.device)(*args, **kwargs)
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@compatibility(is_backward_compatible=True)
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def output(self, target: 'Target', args: Tuple[Argument, ...], kwargs: Dict[str, Any]) -> Any:
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"""
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Execute an ``output`` node. This really just retrieves
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the value referenced by the ``output`` node and returns it.
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Args:
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target (Target): The call target for this node. See
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`Node <https://pytorch.org/docs/master/fx.html#torch.fx.Node>`__ for
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details on semantics
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args (Tuple): Tuple of positional args for this invocation
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kwargs (Dict): Dict of keyword arguments for this invocation
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Return:
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result (Any): The argument value that was retrieved
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meta_info (MetaInfo): The memory cost and forward & backward time.
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"""
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return args[0], GraphInfo(save_fwd_in=True)
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def propagate(self, *args):
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"""
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Run `module` via interpretation and return the result and
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record the shape and type of each node.
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Args:
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*args (Tensor): the sample input.
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Returns:
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Any: The value returned from executing the Module
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"""
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return self.run(*args)
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def summary(self, unit: str = 'MB') -> str:
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"""
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Summarizes the memory and FLOPs statistics of the `GraphModule` in
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tabular format. Note that this API requires the ``tabulate`` module
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to be installed.
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"""
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# https://github.com/pytorch/pytorch/blob/master/torch/fx/graph.py
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try:
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from tabulate import tabulate
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except ImportError:
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print("`summary` relies on the library `tabulate`, "
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"which could not be found on this machine. Run `pip "
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"install tabulate` to install the library.")
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assert self._is_proped, "Please call `interp.run(input)` before calling `interp.summary()`."
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# Build up a list of summary information for each node
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node_summaries: List[List[Any]] = []
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def mem_repr(mem: int) -> str:
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unit_divisor_map = {
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'kb': 1024,
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'mb': 1024**2,
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'gb': 1024**3,
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'tb': 1024**4,
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}
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return f"{mem / unit_divisor_map[unit.lower()]:.2f} {unit.upper()}"
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def time_repr(time: float):
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return f"{time:,} s"
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for node in self.module.graph.nodes:
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node: Node
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node_summaries.append([
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node.op,
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str(node),
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time_repr(node.meta['fwd_time']),
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time_repr(node.meta['bwd_time']),
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node.meta['save_fwd_in'],
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mem_repr(node.meta['fwd_mem_out']),
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mem_repr(node.meta['fwd_mem_tmp']),
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mem_repr(node.meta['bwd_mem_out']),
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mem_repr(node.meta['bwd_mem_tmp']),
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])
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# Use the ``tabulate`` library to create a well-formatted table
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# presenting our summary information
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headers: List[str] = [
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'Op type',
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'Op',
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'Forward time',
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'Backward time',
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'SAVE_FWD_IN',
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'FWD_OUT',
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'FWD_TMP',
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'BWD_OUT',
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'BWD_TMP',
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]
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return tabulate(node_summaries, headers=headers, stralign='right')
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