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chore: import upstream snapshot with attribution
2026-07-13 13:36:55 +08:00

103 lines
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Python

#
# SPDX-FileCopyrightText: Copyright (c) 1993-2024 NVIDIA CORPORATION & AFFILIATES. All rights reserved.
# SPDX-License-Identifier: Apache-2.0
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
from polygraphy import mod
from polygraphy.logger import G_LOGGER
np = mod.lazy_import("numpy")
gs = mod.lazy_import("onnx_graphsurgeon")
OP_REGISTRY = {} # Dict[str, Callable]: Maps op names to reference implementations
def register(op):
"""
Registers a function as the reference implementation for a given op.
Args:
op (str): The name of the op for which to register this function.
"""
def register_impl(func):
def wrapped_func(node, intermediate_tensors):
inputs = []
for inp in node.inputs:
if inp.is_empty(): # Optional input
inputs.append(None)
elif isinstance(inp, gs.Constant):
inputs.append(inp.values)
elif inp.name in intermediate_tensors:
inputs.append(intermediate_tensors[inp.name])
else:
G_LOGGER.internal_error(
f"Input: {inp.name} was not found in intermediate tensors and is not a constant.\nNote: Intermediate tensors include: {list(intermediate_tensors.keys())}"
)
outputs = func(node.attrs, *inputs)
if len(outputs) != len(node.outputs):
G_LOGGER.internal_error(
f"{op} reference implementation returned the wrong number of outputs.\nNote: Expected {len(node.outputs)} but recevied {len(outputs)}"
)
return {
out_tensor.name: out for out_tensor, out in zip(node.outputs, outputs)
}
OP_REGISTRY[op] = wrapped_func
return wrapped_func
return register_impl
@register("Identity")
def run_identity(attrs, x):
return [x]
@register("InstanceNormalization")
def run_instancenorm(attrs, x, weights, bias):
epsilon = attrs.get("epsilon", 1.0e-5)
rank = len(x.shape)
axis = tuple(range(2, rank))
mean = np.mean(x, axis=axis, keepdims=True)
var = np.var(x, axis=axis, keepdims=True)
# Weights and bias needs to be broadcasted to shape of X. C dimension should be a wildcard.
broadcast_shape = [-1] + [1] * (rank - 2)
weights = weights.reshape(broadcast_shape)
bias = bias.reshape(broadcast_shape)
res = weights * (x - mean) / np.sqrt(var + epsilon) + bias
return [res]
@register("MeanVarianceNormalization")
def run_meanvarnorm(attrs, x):
epsilon = 1.0e-9
axes = attrs.get("axes", [0, 2, 3])
axes = tuple(axes)
data_mean = np.mean(x, axis=axes, keepdims=True)
data_mean_squared = np.power(data_mean, 2)
data_squared = np.power(x, 2)
data_squared_mean = np.mean(data_squared, axis=axes, keepdims=True)
std = np.sqrt(data_squared_mean - data_mean_squared)
res = (x - data_mean) / (std + epsilon)
return [res]