mirror of https://github.com/hpcaitech/ColossalAI
129 lines
6.8 KiB
Python
129 lines
6.8 KiB
Python
from typing import List, Tuple
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import torch
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from colossalai.auto_parallel.tensor_shard.sharding_strategy import MemoryCost, OperationDataType, TrainCycleItem
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from colossalai.fx.profiler.memory_utils import activation_size
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from colossalai.fx.profiler.opcount import flop_mapping
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from ..registry import meta_register
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__all__ = ["avgpool_meta_info", "maxpool_meta_info"]
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@meta_register.register(torch.nn.AdaptiveAvgPool1d)
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@meta_register.register(torch.nn.AdaptiveAvgPool2d)
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@meta_register.register(torch.nn.AdaptiveAvgPool3d)
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def avgpool_meta_info(*args, **kwargs) -> Tuple[TrainCycleItem, TrainCycleItem, List[torch.Tensor]]:
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"""Meta info for AdaptiveAvgPool
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The aten graph of AdaptiveAvgPool is
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graph():
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%input_2 : [#users=2] = placeholder[target=placeholder](default=)
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%_adaptive_avg_pool2d_default : [#users=1] = call_function[target=torch.ops.aten._adaptive_avg_pool2d.default](args = (%input_2, [None, None]), kwargs = {})
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%zeros_like_default : [#users=1] = call_function[target=torch.ops.aten.zeros_like.default](args = (%_adaptive_avg_pool2d_default,), kwargs = {dtype: None, layout: None, device: None, pin_memory: None})
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%detach_default : [#users=1] = call_function[target=torch.ops.aten.detach.default](args = (%input_2,), kwargs = {})
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%_adaptive_avg_pool2d_backward_default : [#users=1] = call_function[target=torch.ops.aten._adaptive_avg_pool2d_backward.default](args = (%zeros_like_default, %detach_default), kwargs = {})
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%detach_default_1 : [#users=1] = call_function[target=torch.ops.aten.detach.default](args = (%_adaptive_avg_pool2d_backward_default,), kwargs = {})
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%detach_default_2 : [#users=0] = call_function[target=torch.ops.aten.detach.default](args = (%detach_default_1,), kwargs = {})
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Returns:
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Tuple[TrainCycleItem, TrainCycleItem, List[torch.Tensor]]: compute cost, memory cost and forward inputs
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"""
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input_tensor = next(filter(lambda x: x.type == OperationDataType.ARG, args)).data
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output_tensor = next(filter(lambda x: x.type == OperationDataType.OUTPUT, args)).data
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# construct forward args for flop mapping
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fwd_in_args = [input_tensor]
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fwd_out_args = [output_tensor]
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# construct backward args for flop mapping
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bwd_in_args = [output_tensor]
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bwd_out_args = [input_tensor]
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# calculate cost
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# the fwd op with compute cost is _adaptive_avg_pool2d.default
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# the bwd op with compute cost is _adaptive_avg_pool2d_backward.default
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# calculate compute cost
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fwd_compute_cost = flop_mapping[torch.ops.aten._adaptive_avg_pool2d.default](fwd_in_args, fwd_out_args)
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bwd_compute_cost = flop_mapping[torch.ops.aten._adaptive_avg_pool2d_backward.default](bwd_in_args, bwd_out_args)
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compute_cost = TrainCycleItem(fwd=fwd_compute_cost, bwd=bwd_compute_cost, total=fwd_compute_cost + bwd_compute_cost)
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# calculate memory cost
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fwd_mem_cost = MemoryCost(activation=activation_size(output_tensor))
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bwd_mem_cost = MemoryCost(activation=activation_size(input_tensor))
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# total cost
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total_mem_cost = MemoryCost(activation=fwd_mem_cost.activation + bwd_mem_cost.activation)
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mem_cost = TrainCycleItem(fwd=fwd_mem_cost, bwd=bwd_mem_cost, total=total_mem_cost)
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# store_fwd_in
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fwd_in = [input_tensor]
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return compute_cost, mem_cost, fwd_in
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@meta_register.register(torch.nn.MaxPool1d)
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@meta_register.register(torch.nn.MaxPool2d)
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@meta_register.register(torch.nn.MaxPool3d)
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def maxpool_meta_info(*args, **kwargs) -> Tuple[TrainCycleItem, TrainCycleItem, List[torch.Tensor]]:
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"""Meta info for MaxPool
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The aten graph of MaxPool is
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graph():
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%input_2 : [#users=2] = placeholder[target=placeholder](default=)
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%max_pool2d_with_indices_default : [#users=2] = call_function[target=torch.ops.aten.max_pool2d_with_indices.default](args = (%input_2, [None, None], [None, None]), kwargs = {})
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%zeros_like_default : [#users=1] = call_function[target=torch.ops.aten.zeros_like.default](args = (%max_pool2d_with_indices_default,), kwargs = {dtype: None, layout: None, device: None, pin_memory: None})
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%detach_default : [#users=1] = call_function[target=torch.ops.aten.detach.default](args = (%input_2,), kwargs = {})
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%detach_default_1 : [#users=1] = call_function[target=torch.ops.aten.detach.default](args = (%max_pool2d_with_indices_default,), kwargs = {})
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%max_pool2d_with_indices_backward_default : [#users=1] = call_function[target=torch.ops.aten.max_pool2d_with_indices_backward.default](args = (%zeros_like_default, %detach_default, [None, None], [None, None], [None, None], [None, None], None, %detach_default_1), kwargs = {})
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%detach_default_2 : [#users=1] = call_function[target=torch.ops.aten.detach.default](args = (%max_pool2d_with_indices_backward_default,), kwargs = {})
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%detach_default_3 : [#users=0] = call_function[target=torch.ops.aten.detach.default](args = (%detach_default_2,), kwargs = {})
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Returns:
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Tuple[TrainCycleItem, TrainCycleItem, List[torch.Tensor]]: compute cost, memory cost and forward inputs
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"""
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input_tensor = next(filter(lambda x: x.type == OperationDataType.ARG, args)).data
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output_tensor = next(filter(lambda x: x.type == OperationDataType.OUTPUT, args)).data
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# construct forward args for flop mapping
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fwd_in_args = [input_tensor]
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fwd_out_args = [output_tensor]
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# construct backward args for flop mapping
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bwd_in_args = [output_tensor]
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bwd_out_args = [input_tensor]
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# construct index matrix
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index_matrix = torch.zeros_like(output_tensor, device="meta", dtype=torch.int64)
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# calculate cost
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# the fwd op with compute cost is max_pool2d_with_indices.default
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# the bwd op with compute cost is max_pool2d_with_indices_backward.default
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# calculate compute cost
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fwd_compute_cost = flop_mapping[torch.ops.aten.max_pool2d_with_indices.default](fwd_in_args, fwd_out_args)
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bwd_compute_cost = flop_mapping[torch.ops.aten.max_pool2d_with_indices_backward.default](bwd_in_args, bwd_out_args)
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compute_cost = TrainCycleItem(fwd=fwd_compute_cost, bwd=bwd_compute_cost, total=fwd_compute_cost + bwd_compute_cost)
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# calculate memory cost
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# NOTE: the index matrix will be discarded in backward phase
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# NOTE: currently in SPMD solver we always believe that there will be a new tensor created in forward
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fwd_mem_cost = MemoryCost(activation=activation_size([input_tensor, output_tensor, index_matrix]))
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# temp memory for backward is the index matrix to be discarded
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bwd_mem_cost = MemoryCost(activation=activation_size(input_tensor) - activation_size(index_matrix),
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temp=activation_size(index_matrix))
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# total cost
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total_mem_cost = MemoryCost(activation=fwd_mem_cost.activation + bwd_mem_cost.activation, temp=bwd_mem_cost.temp)
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mem_cost = TrainCycleItem(fwd=fwd_mem_cost, bwd=bwd_mem_cost, total=total_mem_cost)
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# store_fwd_in
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fwd_in = [input_tensor]
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return compute_cost, mem_cost, fwd_in
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