mirror of https://github.com/hpcaitech/ColossalAI
112 lines
5.2 KiB
Python
112 lines
5.2 KiB
Python
import torch
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from typing import List
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from torch.fx import symbolic_trace
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from torch.fx.node import Node
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from colossalai.fx.passes.split_module import split_module
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from colossalai.tensor.shape_consistency import ShapeConsistencyManager
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from colossalai.device.device_mesh import DeviceMesh
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from colossalai.tensor.sharding_spec import ShardingSpec, _DimSpec
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import builtins
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import operator
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from copy import deepcopy
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def apply(*args, **kwargs):
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shape_consistency_manager = ShapeConsistencyManager()
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return shape_consistency_manager.apply(*args, **kwargs)
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def solution_annotatation_pass(gm: torch.fx.GraphModule, solution: List[int], device_mesh):
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mod_graph = gm.graph
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nodes = tuple(mod_graph.nodes)
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# the dict to get origin sharding spec of node
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origin_node_sharding_spec_dict = {}
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for node_index, (node, strategy_index) in enumerate(zip(nodes, solution)):
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strategies_vector = node.strategies_vector
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setattr(node, 'best_strategy', strategies_vector[strategy_index])
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setattr(node, 'sharding_spec', strategies_vector[strategy_index].output_sharding_spec)
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origin_node_sharding_spec_dict[node_index] = strategies_vector[strategy_index].output_sharding_spec
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# apply the sharding spec of parameters
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for node in nodes:
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if node.op == 'call_module':
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target_module = node.graph.owning_module.get_submodule(node.target)
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origin_sharding_spec = ShardingSpec(device_mesh, target_module.weight.shape, {})
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setattr(target_module.weight, 'sharding_spec', origin_sharding_spec)
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target_weight_sharding_spec = node.best_strategy.input_shardings[1]
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target_module.weight.data = target_module.weight.data.permute((1, 0, 2, 3))
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apply(target_module.weight, target_weight_sharding_spec)
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target_module.weight.data = target_module.weight.data.permute((1, 0, 2, 3))
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# the dict to get input sharding specs of user node
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sharding_spec_convert_dict = {}
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for index, node in enumerate(nodes):
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target_sharding_specs = []
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for user_node in node.strategies_vector.successor_nodes:
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node_index = user_node.strategies_vector.predecessor_nodes.index(node)
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target_sharding_spec = user_node.best_strategy.input_shardings[node_index]
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target_sharding_specs.append(target_sharding_spec)
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sharding_spec_convert_dict[index] = target_sharding_specs
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# add above dicts into graph
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for node in nodes:
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if node.op != 'placeholder':
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with mod_graph.inserting_before(node):
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input_specs_node = mod_graph.create_node('placeholder', target='sharding_spec_convert_dict')
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origin_specs_node = mod_graph.create_node('placeholder', target='origin_node_sharding_spec_dict')
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break
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return sharding_spec_convert_dict, origin_node_sharding_spec_dict
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def shape_consistency_pass(gm: torch.fx.GraphModule):
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mod_graph = gm.graph
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nodes = tuple(mod_graph.nodes)
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input_dict_node = None
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origin_dict_node = None
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# mapping the node into the origin graph index
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node_to_index_dict = {}
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index = 0
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for node in nodes:
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if node.target == 'sharding_spec_convert_dict':
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input_dict_node = node
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continue
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if node.target == 'origin_node_sharding_spec_dict':
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origin_dict_node = node
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continue
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if not hasattr(node, 'best_strategy'):
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continue
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node_to_index_dict[node] = index
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index += 1
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assert input_dict_node is not None
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# add shape consistency apply function into graph
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for node in nodes:
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if not hasattr(node, 'best_strategy'):
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continue
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with mod_graph.inserting_after(node):
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origin_spec_node = mod_graph.create_node('call_function',
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operator.getitem,
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args=(origin_dict_node, node_to_index_dict[node]))
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with mod_graph.inserting_after(origin_spec_node):
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set_sharding_spec_node = mod_graph.create_node('call_function',
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builtins.setattr,
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args=(node, 'sharding_spec', origin_spec_node))
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for user_node in node.strategies_vector.successor_nodes:
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node_index = user_node.strategies_vector.predecessor_nodes.index(node)
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with mod_graph.inserting_before(user_node):
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input_specs_node = mod_graph.create_node('call_function',
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operator.getitem,
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args=(input_dict_node, node_to_index_dict[node]))
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with mod_graph.inserting_before(user_node):
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sharding_spec_node = mod_graph.create_node('call_function',
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operator.getitem,
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args=(input_specs_node, node_index))
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with mod_graph.inserting_before(user_node):
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shape_consistency_node = mod_graph.create_node('call_function', apply, args=(node, sharding_spec_node))
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return gm
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