Keras 使用 Lambda层详解

2020-10-29 11:13:55 浏览数 (1)

我就废话不多说了,大家还是直接看代码吧!

代码语言:javascript复制
from tensorflow.python.keras.models import Sequential, Model
from tensorflow.python.keras.layers import Dense, Flatten, Conv2D, MaxPool2D, Dropout, Conv2DTranspose, Lambda, Input, Reshape, Add, Multiply
from tensorflow.python.keras.optimizers import Adam
 
def deconv(x):
  height = x.get_shape()[1].value
  width = x.get_shape()[2].value
  
  new_height = height*2
  new_width = width*2
  
  x_resized = tf.image.resize_images(x, [new_height, new_width], tf.image.ResizeMethod.NEAREST_NEIGHBOR)
  
  return x_resized
 
def Generator(scope='generator'):
  imgs_noise = Input(shape=inputs_shape)
  x = Conv2D(filters=32, kernel_size=(9,9), strides=(1,1), padding='same', activation='relu')(imgs_noise)
  x = Conv2D(filters=64, kernel_size=(3,3), strides=(2,2), padding='same', activation='relu')(x)
  x = Conv2D(filters=128, kernel_size=(3,3), strides=(2,2), padding='same', activation='relu')(x)
 
  x1 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x)
  x1 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x1)
  x2 = Add()([x1, x])
 
  x3 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x2)
  x3 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x3)
  x4 = Add()([x3, x2])
 
  x5 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x4)
  x5 = Conv2D(filters=128, kernel_size=(3,3), strides=(1,1), padding='same', activation='relu')(x5)
  x6 = Add()([x5, x4])
 
  x = MaxPool2D(pool_size=(2,2))(x6)
 
  x = Lambda(deconv)(x)
  x = Conv2D(filters=64, kernel_size=(3, 3), strides=(1,1), padding='same',activation='relu')(x)
  x = Lambda(deconv)(x)
  x = Conv2D(filters=32, kernel_size=(3, 3), strides=(1,1), padding='same',activation='relu')(x)
  x = Lambda(deconv)(x)
  x = Conv2D(filters=3, kernel_size=(3, 3), strides=(1, 1), padding='same',activation='tanh')(x)
 
  x = Lambda(lambda x: x 1)(x)
  y = Lambda(lambda x: x*127.5)(x)
  
  model = Model(inputs=imgs_noise, outputs=y)
  model.summary()
  
  return model
 
my_generator = Generator()
my_generator.compile(loss='binary_crossentropy', optimizer=Adam(0.7, decay=1e-3), metrics=['accuracy'])

补充知识:含有Lambda自定义层keras模型,保存遇到的问题及解决方案

一,许多应用,keras含有的层已经不能满足要求,需要透过Lambda自定义层来实现一些layer,这个情况下,只能保存模型的权重,无法使用model.save来保存模型。保存时会报

TypeError: can’t pickle _thread.RLock objects

二,解决方案,为了便于后续的部署,可以转成tensorflow的PB进行部署。

代码语言:javascript复制
from keras.models import load_model
import tensorflow as tf
import os, sys
from keras import backend as K
from tensorflow.python.framework import graph_util, graph_io

def h5_to_pb(h5_weight_path, output_dir, out_prefix="output_", log_tensorboard=True):
  if not os.path.exists(output_dir):
    os.mkdir(output_dir)
  h5_model = build_model()
  h5_model.load_weights(h5_weight_path)
  out_nodes = []
  for i in range(len(h5_model.outputs)):
    out_nodes.append(out_prefix   str(i   1))
    tf.identity(h5_model.output[i], out_prefix   str(i   1))
  model_name = os.path.splitext(os.path.split(h5_weight_path)[-1])[0]   '.pb'
  sess = K.get_session()
  init_graph = sess.graph.as_graph_def()
  main_graph = graph_util.convert_variables_to_constants(sess, init_graph, out_nodes)
  graph_io.write_graph(main_graph, output_dir, name=model_name, as_text=False)
  if log_tensorboard:
    from tensorflow.python.tools import import_pb_to_tensorboard
    import_pb_to_tensorboard.import_to_tensorboard(os.path.join(output_dir, model_name), output_dir)

def build_model():
  inputs = Input(shape=(784,), name='input_img')
  x = Dense(64, activation='relu')(inputs)
  x = Dense(64, activation='relu')(x)
  y = Dense(10, activation='softmax')(x)
  h5_model = Model(inputs=inputs, outputs=y)
  return h5_model

if __name__ == '__main__':
  if len(sys.argv) == 3:
    # usage: python3 h5_to_pb.py h5_weight_path output_dir
    h5_to_pb(h5_weight_path=sys.argv[1], output_dir=sys.argv[2])

以上这篇Keras 使用 Lambda层详解就是小编分享给大家的全部内容了,希望能给大家一个参考。

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