def test_identify_input_output(self): g = GraphAnalyzer() g.graph = self.input_graph g.parse_graph() inputs, outputs = g.get_graph_input_output() self.assertEqual(inputs, self.inputs) self.assertEqual(outputs, self.outputs)
def test_identify_input_output(self): g = GraphAnalyzer() g.graph = self.input_graph g.parse_graph() inputs, outputs = g.get_graph_input_output() self.assertEqual(inputs, self.inputs) self.assertEqual(outputs, self.outputs) input_graph = tf.compat.v1.GraphDef() with open('model_1.pb', "rb") as f: input_graph.ParseFromString(f.read()) g = GraphAnalyzer() g.graph = input_graph g.parse_graph() inputs, outputs = g.get_graph_input_output() self.assertEqual(inputs, ['sub']) self.assertEqual(outputs, ['op_to_store']) input_graph = tf.compat.v1.GraphDef() with open('model_2.pb', "rb") as f: input_graph.ParseFromString(f.read()) g = GraphAnalyzer() g.graph = input_graph g.parse_graph() inputs, outputs = g.get_graph_input_output() self.assertEqual(inputs, []) self.assertEqual(outputs, []) input_graph = tf.compat.v1.GraphDef() with open('model_3.pb', "rb") as f: input_graph.ParseFromString(f.read()) g = GraphAnalyzer() g.graph = input_graph g.parse_graph() inputs, outputs = g.get_graph_input_output() self.assertEqual(inputs, []) self.assertEqual(outputs, [])
def test_no_input_output_config(self): g = GraphAnalyzer() g.graph = self.input_graph g.parse_graph() float_graph_def = g.dump_graph() from lpot import Quantization, common quantizer = Quantization('fake_yaml.yaml') dataset = quantizer.dataset('dummy', shape=(20, 224, 224, 3), label=True) quantizer.calib_dataloader = common.DataLoader(dataset, batch_size=2) quantizer.eval_dataloader = common.DataLoader(dataset, batch_size=2) quantizer.model = float_graph_def output_graph = quantizer() self.assertGreater(len(output_graph.graph_def.node), 0)
def test_replace_node(self): graph_analyzer = GraphAnalyzer() graph_analyzer.graph = copy.deepcopy(self.graph_def) graph_analyzer.parse_graph() new_add_node = node_def_pb2.NodeDef() new_add_node.op = "Add" new_add_node.name = "add1" new_add_node.input.extend( [self.input0_node.name, self.input1_node.name]) graph_analyzer.replace_node(new_add_node, self.add_node.name, [self.mul_node.name]) result_graph = graph_analyzer.dump_graph() assert self.add_node not in list(result_graph.node) assert new_add_node in list(result_graph.node)
def test_invalid_input_output_config(self): g = GraphAnalyzer() g.graph = self.input_graph g.parse_graph() float_graph_def = g.dump_graph() from lpot import Quantization, common quantizer = Quantization('fake_yaml_2.yaml') dataset = quantizer.dataset('dummy', shape=(20, 224, 224, 3), label=True) quantizer.calib_dataloader = common.DataLoader(dataset, batch_size=2) quantizer.eval_dataloader = common.DataLoader(dataset, batch_size=2) quantizer.model = float_graph_def model = quantizer() # will detect the right inputs/outputs self.assertNotEqual(model.input_node_names, ['x']) self.assertNotEqual(model.output_node_names, ['op_to_store'])
def test_replace_constant_graph_with_constant_node(self): graph_analyzer = GraphAnalyzer() graph_analyzer.graph = copy.deepcopy(self.graph_def) graph_analyzer.parse_graph() new_constant_value = np.random.random([4, 1]) new_constant_type = tf.as_dtype(np.float32(new_constant_value).dtype) new_constant_node = GraphRewriterHelper.create_constant_node( self.add_node.name + "_const", new_constant_value, new_constant_type) assert graph_analyzer.replace_constant_graph_with_constant_node( new_constant_node, self.add_node.name) result_graph = graph_analyzer.dump_graph() assert len(list(result_graph.node)) == 10 new_constant_value = np.random.random([4, 1]) new_constant_type = tf.as_dtype(np.float32(new_constant_value).dtype) new_constant_node = GraphRewriterHelper.create_constant_node( self.mul_node.name + "_const", new_constant_value, new_constant_type) assert graph_analyzer.replace_constant_graph_with_constant_node( new_constant_node, self.mul_node.name) result_graph = graph_analyzer.dump_graph() assert len(list(result_graph.node)) == 8 new_constant_value = np.random.random([4, 1]) new_constant_type = tf.as_dtype(np.float32(new_constant_value).dtype) new_constant_node = GraphRewriterHelper.create_constant_node( self.sqrt_node.name + "_const", new_constant_value, new_constant_type) assert graph_analyzer.replace_constant_graph_with_constant_node( new_constant_node, self.sqrt_node.name) result_graph = graph_analyzer.dump_graph() assert len(list(result_graph.node)) == 7 new_constant_value = np.random.random([4, 1]) new_constant_type = tf.as_dtype(np.float32(new_constant_value).dtype) new_constant_node = GraphRewriterHelper.create_constant_node( self.block_node.name + "_const", new_constant_value, new_constant_type) assert not graph_analyzer.replace_constant_graph_with_constant_node( new_constant_node, self.block_node.name)
def test_tensorflow_concat_quantization(self): output_graph_def = read_graph(self.pb_path) from lpot import Quantization quantizer = Quantization('fake_yaml.yaml') dataset = quantizer.dataset('dummy', shape=(100, 299, 299, 3), label=True) dataloader = quantizer.dataloader(dataset) output_graph = quantizer(output_graph_def, q_dataloader=dataloader, eval_dataloader=dataloader) found_quantized_concat_node = False target_concat_node_name = 'v0/cg/incept_v3_a0/concat_eightbit_quantized_concatv2' from lpot.adaptor.tf_utils.graph_rewriter.graph_util import GraphAnalyzer cur_graph = GraphAnalyzer() cur_graph.graph = output_graph.as_graph_def() graph_info = cur_graph.parse_graph() found_quantized_concat_node = target_concat_node_name in graph_info self.assertEqual(found_quantized_concat_node, True) min_out, max_out = [], [] for input_conv_name in graph_info[ target_concat_node_name].node.input[:4]: # print (input_conv_name, graph_info[input_conv_name].node.input) min_freezed_out_name = graph_info[input_conv_name].node.input[-2] max_freezed_out_name = graph_info[input_conv_name].node.input[-1] min_freezed_out_value = (graph_info[min_freezed_out_name].node. attr['value'].tensor.float_val)[0] max_freezed_out_value = (graph_info[max_freezed_out_name].node. attr['value'].tensor.float_val)[0] min_out.append(min_freezed_out_value) max_out.append(max_freezed_out_value) self.assertEqual(len(set(min_out)), 1) self.assertEqual(len(set(max_out)), 1)
def test_graph_cse(self): tf.compat.v1.disable_eager_execution() input_constant_name = "input_constant" relu_name = "relu" float_graph_def = graph_pb2.GraphDef() input_constant = QuantizeGraphHelper.create_constant_node( input_constant_name, value=[1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12], dtype=dtypes.float32, shape=[1, 2, 6, 1]) float_graph_def.node.extend([input_constant]) relu_node = QuantizeGraphHelper.create_node("Relu", relu_name, [input_constant_name]) QuantizeGraphHelper.set_attr_dtype(relu_node, "T", dtypes.float32) float_graph_def.node.extend([relu_node]) b_constant_name = "b_constant" mat_mul_name = "mat_mul" b_constant = QuantizeGraphHelper.create_constant_node( b_constant_name, value=[1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12], dtype=dtypes.float32, shape=[2, 6]) float_graph_def.node.extend([b_constant]) mat_mul_node = QuantizeGraphHelper.create_node( "MatMul", mat_mul_name, [relu_name, b_constant_name]) QuantizeGraphHelper.set_attr_dtype(mat_mul_node, "T", dtypes.float32) QuantizeGraphHelper.set_attr_bool(mat_mul_node, "transpose_a", False) QuantizeGraphHelper.set_attr_bool(mat_mul_node, "transpose_b", False) float_graph_def.node.extend([mat_mul_node]) bias_add_name = "bias_add" offset_constant_name = "offset_constant" offset_constant = QuantizeGraphHelper.create_constant_node( offset_constant_name, value=[1, 2, 3, 4, 5, 6], dtype=dtypes.float32, shape=[6]) float_graph_def.node.extend([offset_constant]) bias_add_node = QuantizeGraphHelper.create_node( "BiasAdd", bias_add_name, [mat_mul_name, offset_constant_name]) QuantizeGraphHelper.set_attr_dtype(bias_add_node, "T", dtypes.float32) float_graph_def.node.extend([bias_add_node]) post_relu_name = "post_relu" post_relu_node = QuantizeGraphHelper.create_node( "Relu", post_relu_name, [bias_add_name]) float_graph_def.node.extend([post_relu_node]) last_identity_node_name = 'last_identity' last_identity_node = QuantizeGraphHelper.create_node( "Identity", last_identity_node_name, [post_relu_name]) float_graph_def.node.extend([last_identity_node]) analyzer = GraphAnalyzer() analyzer.graph = float_graph_def analyzer.parse_graph() res = analyzer.query_fusion_pattern_nodes([['MatMul'], ("BiasAdd"), ("Relu")]) self.assertEqual(3, len(res[0][-1]))