mirror of
https://github.com/NVIDIA/TensorRT-LLM.git
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5fa6fbd989
Fix AutoTuner warmup request generating. * The current warmup phase creates one request, which is insufficient for the warmup to cover the max_num_tokens. Revise the warmup phase to a batch of requests to cover the max_num_tokens to eliminate potential fallback cases. Refactor AutoTuner API and reduce host overhead. Refine (min, opt, max) values of optimization profile setup for get_valid_tactics to achieve the correct canImplement definition. * Refine cache key assembly process to reduce host overhead and simplify API. * Fix lru_cache usage to reduce host overhead. * Move tuning config initialization as a one-time object in tunable runner to reduce host overhead. Improve tuning config readability. * Use dataclass to define tuning config. Signed-off-by: Yukun He <23156053+hyukn@users.noreply.github.com>
239 lines
6.6 KiB
Python
239 lines
6.6 KiB
Python
import contextlib
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import os
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import threading
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from dataclasses import dataclass
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from enum import Enum
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from typing import Dict, List
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import torch
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from tensorrt_llm._utils import TensorWrapper, convert_to_torch_tensor
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from tensorrt_llm.quantization.utils import fp4_utils
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is_torch_compiling_flag = False
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aux_stream_name_list = ['Attention', 'MoeShared', 'MoeChunkingOverlap']
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AuxStreamType = Enum(
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'AuxStreamType',
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aux_stream_name_list,
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)
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EventType = Enum(
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'EventType',
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['Main', *aux_stream_name_list],
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start=0,
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)
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def set_torch_compiling(enable: bool):
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global is_torch_compiling_flag
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is_torch_compiling_flag = enable
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def is_torch_compiling() -> bool:
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global is_torch_compiling_flag
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return is_torch_compiling_flag
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_global_attrs = threading.local()
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def get_global_attrs():
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return _global_attrs
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_model_extra_attrs = threading.local()
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def get_model_extra_attrs():
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return getattr(_model_extra_attrs, 'attrs', None)
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@contextlib.contextmanager
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def model_extra_attrs(attrs: Dict):
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old_attrs = getattr(_model_extra_attrs, 'attrs', None)
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_model_extra_attrs.attrs = attrs
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try:
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yield
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finally:
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_model_extra_attrs.attrs = old_attrs
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def with_model_extra_attrs(get_attrs):
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def decorator(func):
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def wrapper(self, *args, **kwargs):
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with model_extra_attrs(get_attrs(self)):
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return func(self, *args, **kwargs)
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return wrapper
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return decorator
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def make_weak_ref(x):
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if isinstance(x, torch.Tensor):
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return convert_to_torch_tensor(
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TensorWrapper(x.data_ptr(), x.dtype, x.shape)) if x.is_cuda else x
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elif isinstance(x, tuple):
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return tuple(make_weak_ref(i) for i in x)
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elif isinstance(x, list):
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return [make_weak_ref(i) for i in x]
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elif isinstance(x, dict):
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return {k: make_weak_ref(v) for k, v in x.items()}
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elif isinstance(x, (int, float, bool)):
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return x
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else:
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raise TypeError(f"Invalid type {type(x)} to make weak ref")
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@dataclass
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class Fp4QuantizedTensor:
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fp4_tensor: torch.Tensor
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scaling_factor: torch.Tensor
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@property
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def shape(self):
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return self.fp4_tensor.shape
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_disable_fp4_allgather = os.getenv("TLLM_DISABLE_FP4_ALLGATHER", "0") == "1"
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def disable_fp4_allgather():
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return _disable_fp4_allgather
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def compute_swizzled_sf_shape(row: int, col: int):
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padded_row = (row + 128 - 1) // 128 * 128
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padded_col = (col + 4 - 1) // 4 * 4
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return padded_row, padded_col
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def swizzle_sf(sf: torch.Tensor,
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row: int,
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col: int,
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scaling_vector_size: int = 16):
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factor = scaling_vector_size * 4
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num_m_tiles = (row + 128 - 1) // 128
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num_k_tiles = (col + factor - 1) // factor
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# SF layout [num_m_tiles, num_k_tiles, 32 (m_tile column major), 4 (m_tile column major), 4(k_tile)]
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sf_full = torch.zeros(num_m_tiles * 32 * 4,
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num_k_tiles * 4,
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dtype=sf.dtype,
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device=sf.device)
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sf_full[:row, :(col //
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scaling_vector_size)] = sf[:row, :(col //
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scaling_vector_size)]
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sf_full_reshaped = sf_full.view(num_m_tiles, 4, 32, num_k_tiles, 4)
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sf_full_swizzle = sf_full_reshaped.transpose(1, 3)
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sf_swizzle = sf_full_swizzle.reshape(-1)
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return sf_swizzle
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def unswizzle_sf(sf: torch.Tensor,
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row: int,
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col: int,
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scaling_vector_size: int = 16):
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factor = scaling_vector_size * 4
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num_m_tiles = (row + 128 - 1) // 128
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num_k_tiles = (col + factor - 1) // factor
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# SF layout [num_m_tiles, num_k_tiles, 32 (m_tile column major), 4 (m_tile column major), 4(k_tile)]
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sf_reshaped = sf.view(num_m_tiles, num_k_tiles, 32, 4, 4)
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sf_unswizzle = sf_reshaped.transpose(1, 3)
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sf_unswizzle = sf_unswizzle.reshape(num_m_tiles * 32 * 4, num_k_tiles * 4)
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sf_unswizzle_sliced = sf_unswizzle[:row, :(col // scaling_vector_size)]
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return sf_unswizzle_sliced.contiguous()
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def reswizzle_sf(sf: torch.Tensor,
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row: int,
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col: int,
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scaling_vector_size: int = 16):
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factor = scaling_vector_size * 4
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num_m_tiles = (row + 128 - 1) // 128
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num_k_tiles = (col + factor - 1) // factor
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partition_size = num_m_tiles * num_k_tiles * 32 * 4 * 4
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num_partitions = sf.numel() // partition_size
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sf_reshaped = sf.view(num_partitions, num_m_tiles, num_k_tiles, 32, 4, 4)
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sf_unswizzle = sf_reshaped.transpose(2, 4)
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sf_unswizzle = sf_unswizzle.reshape(num_partitions, num_m_tiles * 32 * 4,
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num_k_tiles * 4)
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total_rows = num_partitions * row
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num_m_tiles_out = (total_rows + 128 - 1) // 128
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sf_out = torch.zeros(
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num_m_tiles_out,
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4,
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32,
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num_k_tiles,
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4,
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dtype=sf.dtype,
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device=sf.device,
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)
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sf_out_reshaped = sf_out.view(num_m_tiles_out * 32 * 4, num_k_tiles * 4)
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sf_out_reshaped[:total_rows] = sf_unswizzle[:, :row].reshape(total_rows, -1)
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sf_out_swizzle = sf_out.transpose(1, 3).reshape(-1)
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return sf_out_swizzle
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def next_positive_power_of_2(x: int) -> int:
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if x < 1:
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return 1
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return 1 << (x - 1).bit_length()
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def last_positive_power_of_2(x: int) -> int:
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next = next_positive_power_of_2(x)
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if next == x:
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return next
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return next // 2
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def nearest_in_buckets(x: int, buckets: List[int]) -> int:
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return min(max(next_positive_power_of_2(x), buckets[0]), buckets[-1])
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def get_power_of_2_num_tokens_buckets(max_num_tokens) -> List[int]:
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max_num_tokens = next_positive_power_of_2(max_num_tokens)
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num_token_buckets = []
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m = max_num_tokens
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while m >= 1:
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num_token_buckets.append(m)
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m //= 2
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return tuple(num_token_buckets)
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def get_last_power_of_2_num_tokens_buckets(max_num_tokens) -> List[int]:
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max_num_tokens = last_positive_power_of_2(max_num_tokens)
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num_token_buckets = []
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m = max_num_tokens
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while m >= 1:
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num_token_buckets.append(m)
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m //= 2
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return tuple(num_token_buckets)
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def fp4_scale_infer_shape(input_shapes: List[List[int]]):
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"""Calculate the dimensions of the fp4 scale tensor.
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"""
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out_shape, scale_shape = fp4_utils.get_fp4_shape(input_shapes[0],
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sf_vec_size=16)
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return scale_shape * 2
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_enable_piecewise_cuda_graph = True
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def set_piecewise_cuda_graph_flag(enable: bool):
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global _enable_piecewise_cuda_graph
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_enable_piecewise_cuda_graph = enable
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def get_piecewise_cuda_graph_flag() -> bool:
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global _enable_piecewise_cuda_graph
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return _enable_piecewise_cuda_graph
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