mirror of
https://github.com/saymrwulf/onnxruntime.git
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117 lines
6.2 KiB
Python
117 lines
6.2 KiB
Python
#!/usr/bin/env python
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# coding: utf-8
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# -------------------------------------------------------------------------
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# Copyright (c) Microsoft Corporation. All rights reserved.
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# Licensed under the MIT License. See License.txt in the project root for
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# license information.
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# --------------------------------------------------------------------------
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import unittest
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import onnx
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import numpy as np
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from onnx import helper, TensorProto
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from onnxruntime.quantization import quantize_static, QuantFormat
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from op_test_utils import TestDataFeeds, check_model_correctness, check_op_type_count
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class TestOpSqueezeUnsqueeze(unittest.TestCase):
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def input_feeds(self, n, name2shape):
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input_data_list = []
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for i in range(n):
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inputs = {}
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for name, shape in name2shape.items():
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inputs.update({name: np.random.randint(-1, 2, shape).astype(np.float32)})
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input_data_list.extend([inputs])
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dr = TestDataFeeds(input_data_list)
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return dr
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def construct_model_conv_squeezes(self, output_model_path,
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conv_input_shape, conv_weight_shape, conv_output_shape,
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opset = 13):
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# (input)
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# / | \
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# Conv1 conv2 conv3
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# | | |
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# Squeeze1 Squeeze2 |
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# \ / |
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# add1 |
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# | |
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# Unsqueeze |
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# \ |
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# add2
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# |
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# (output)
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input_tensor = helper.make_tensor_value_info('input', TensorProto.FLOAT, conv_input_shape)
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conv1_weight_arr = np.random.randint(-1, 2, conv_weight_shape).astype(np.float32)
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conv1_weight_initializer = onnx.numpy_helper.from_array(conv1_weight_arr, name='conv1_weight')
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conv1_node = onnx.helper.make_node('Conv', ['input', 'conv1_weight'], ['conv1_output'], name='conv1_node')
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conv2_weight_arr = np.random.randint(-1, 2, conv_weight_shape).astype(np.float32)
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conv2_weight_initializer = onnx.numpy_helper.from_array(conv2_weight_arr, name='conv2_weight')
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conv2_node = onnx.helper.make_node('Conv', ['input', 'conv2_weight'], ['conv2_output'], name='conv2_node')
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conv3_weight_arr = np.random.randint(-1, 2, conv_weight_shape).astype(np.float32)
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conv3_weight_initializer = onnx.numpy_helper.from_array(conv3_weight_arr, name='conv3_weight')
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conv3_node = onnx.helper.make_node('Conv', ['input', 'conv3_weight'], ['conv3_output'], name='conv3_node')
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if (opset >= 13):
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squeeze_axes_initializer = onnx.numpy_helper.from_array(np.array([0], dtype=np.int64), name='squeeze_axes')
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squeeze1_node = helper.make_node('Squeeze', ['conv1_output', 'squeeze_axes'], ['squeeze1_output'], name='suqeeze1_node')
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squeeze2_node = helper.make_node('Squeeze', ['conv2_output', 'squeeze_axes'], ['squeeze2_output'], name='suqeeze2_node')
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else:
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squeeze1_node = helper.make_node('Squeeze', ['conv1_output'], ['squeeze1_output'], name='suqeeze1_node', axes=[0])
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squeeze2_node = helper.make_node('Squeeze', ['conv2_output'], ['squeeze2_output'], name='suqeeze2_node', axes=[0])
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add1_node = helper.make_node('Add', ['squeeze1_output', 'squeeze2_output'], ['add1_output'], name='add1_node')
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if (opset >= 13):
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unsqueeze_node = helper.make_node('Unsqueeze', ['add1_output', 'squeeze_axes'], ['unsqueeze_output'], name = 'unsqueeze_node')
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else:
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unsqueeze_node = helper.make_node('Unsqueeze', ['add1_output'], ['unsqueeze_output'], name = 'unsqueeze_node', axes=[0])
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output_tensor = helper.make_tensor_value_info('output', TensorProto.FLOAT, conv_output_shape)
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add2_node = helper.make_node('Add', ['unsqueeze_output', 'conv3_output'], ['output'], name='add2_node')
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initializers = [conv1_weight_initializer, conv2_weight_initializer, conv3_weight_initializer]
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if (opset >= 13):
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initializers.append(squeeze_axes_initializer)
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graph = helper.make_graph([conv1_node, conv2_node, conv3_node, squeeze1_node, squeeze2_node, add1_node, unsqueeze_node, add2_node],
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'TestOpSuqeezes_test_model', [input_tensor], [output_tensor], initializer=initializers)
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model = helper.make_model(graph, opset_imports=[helper.make_opsetid("", opset)])
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model.ir_version = onnx.IR_VERSION
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onnx.save(model, output_model_path)
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def run_quantize_squeezes_of_opset(self, opset = 13):
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np.random.seed(1)
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model_fp32_path = 'squeezes_opset{}_fp32.onnx'.format(opset)
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model_uint8_path = 'squeezes_opset{}_uint8.onnx'.format(opset)
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model_uint8_qdq_path = 'squeezes_opset{}_uint8_qdq.onnx'.format(opset)
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self.construct_model_conv_squeezes(model_fp32_path, [1, 2, 26, 42], [3, 2, 3, 3], [1, 3, 24, 40], opset=opset)
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# Verify QOperator mode
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data_reader = self.input_feeds(1, {'input': [1, 2, 26, 42]})
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quantize_static(model_fp32_path, model_uint8_path, data_reader)
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# make sure squeezes become xint8 operator, its input name could tell that
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qnode_counts = {'QuantizeLinear': 1, 'DequantizeLinear': 1}
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check_op_type_count(self, model_uint8_path, **qnode_counts)
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data_reader.rewind()
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check_model_correctness(self, model_fp32_path, model_uint8_path, data_reader.get_next(), rtol=0.01, atol=0.5)
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# Verify QDQ mode
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data_reader.rewind()
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quantize_static(model_fp32_path, model_uint8_qdq_path, data_reader, quant_format=QuantFormat.QDQ)
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qdqnode_counts = {'Conv': 3, 'QuantizeLinear': 8, 'DequantizeLinear': 11}
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check_op_type_count(self, model_uint8_qdq_path, **qdqnode_counts)
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data_reader.rewind()
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check_model_correctness(self, model_fp32_path, model_uint8_qdq_path, data_reader.get_next(), rtol=0.01, atol=0.5)
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def test_quantize_squeeze_unsqueeze(self):
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self.run_quantize_squeezes_of_opset(11)
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self.run_quantize_squeezes_of_opset(13)
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if __name__ == '__main__':
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unittest.main()
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