TF之RNN:实现利用scope.reuse_variables()告诉TF想重复利用RNN的参数的案例—Jason niu】的更多相关文章

TF之RNN:实现利用scope.reuse_variables()告诉TF想重复利用RNN的参数的案例—Jason niu

import tensorflow as tf # 22 scope (name_scope/variable_scope) from __future__ import print_function class TrainConfig: batch_size = 20 time_steps = 20 input_size = 10 output_size = 2 cell_size = 11 learning_rate = 0.01 class TestConfig(TrainConfig):…

TF之RNN:TF的RNN中的常用的两种定义scope的方式get_variable和Variable—Jason niu

# tensorflow中的两种定义scope(命名变量)的方式tf.get_variable和tf.Variable.Tensorflow当中有两种途径生成变量 variable import tensorflow as tf #T1法 tf.name_scope() with tf.name_scope("a_name_scope"): initializer = tf.constant_initializer(value=1) #定义常量 var1 = tf.get_variab…

深度学习原理与框架-递归神经网络-RNN_exmaple(代码) 1.rnn.BasicLSTMCell(构造基本网络) 2.tf.nn.dynamic_rnn(执行rnn网络) 3.tf.expand_dim(增加输入数据的维度) 4.tf.tile(在某个维度上按照倍数进行平铺迭代) 5.tf.squeeze(去除维度上为1的维度)

1. rnn.BasicLSTMCell(num_hidden) #  构造单层的lstm网络结构 参数说明:num_hidden表示隐藏层的个数 2.tf.nn.dynamic_rnn(cell, self.x, tf.float32) # 执行lstm网络,获得state和outputs 参数说明:cell表示实例化的rnn网络,self.x表示输入层,tf.float32表示类型 3. tf.expand_dim(self.w, axis=0) 对数据增加一个维度 参数说明:self.w表…

TF之RNN:matplotlib动态演示之基于顺序的RNN回归案例实现高效学习逐步逼近余弦曲线—Jason niu

import tensorflow as tf import numpy as np import matplotlib.pyplot as plt BATCH_START = 0 TIME_STEPS = 20 BATCH_SIZE = 50 INPUT_SIZE = 1 OUTPUT_SIZE = 1 CELL_SIZE = 10 LR = 0.006 BATCH_START_TEST = 0 def get_batch(): global BATCH_START, TIME_STEPS #…

TF之RNN:基于顺序的RNN分类案例对手写数字图片mnist数据集实现高精度预测—Jason niu

import tensorflow as tf from tensorflow.examples.tutorials.mnist import input_data mnist = input_data.read_data_sets('MNIST_data', one_hot=True) lr=0.001 training_iters=100000 batch_size=128 n_inputs=28 n_steps=28 n_hidden_units=128 n_classes=10 x=tf…

TensorFlow RNN MNIST字符识别演示快速了解TF RNN核心框架

TensorFlow RNN MNIST字符识别演示快速了解TF RNN核心框架 http://blog.sina.com.cn/s/blog_4b0020f30102wv4l.html…

TF之RNN:TensorBoard可视化之基于顺序的RNN回归案例实现蓝色正弦虚线预测红色余弦实线—Jason niu

import tensorflow as tf import numpy as np import matplotlib.pyplot as plt BATCH_START = 0 TIME_STEPS = 20 BATCH_SIZE = 50 INPUT_SIZE = 1 OUTPUT_SIZE = 1 CELL_SIZE = 10 LR = 0.006 BATCH_START_TEST = 0 def get_batch(): global BATCH_START, TIME_STEPS x…

TF:利用sklearn自带数据集使用dropout解决学习中overfitting的问题+Tensorboard显示变化曲线—Jason niu

import tensorflow as tf from sklearn.datasets import load_digits #from sklearn.cross_validation import train_test_split from sklearn.model_selection import train_test_split from sklearn.preprocessing import LabelBinarizer # load data digits = load_di…

TF:Tensorflow结构简单应用,随机生成100个数,利用Tensorflow训练使其逼近已知线性直线的效率和截距—Jason niu

import os os.environ[' import tensorflow as tf import numpy as np x_data = np.random.rand(100).astype(np.float32) y_data = x_data*0.1 + 0.3 Weights = tf.Variable(tf.random_uniform([1], -1.0, 1.0)) biases = tf.Variable(tf.zeros([1])) y = Weights*x_dat…

深度学习原理与框架-图像补全(原理与代码) 1.tf.nn.moments(求平均值和标准差) 2.tf.control_dependencies(先执行内部操作) 3.tf.cond(判别执行前或后函数) 4.tf.nn.atrous_conv2d 5.tf.nn.conv2d_transpose(反卷积) 7.tf.train.get_checkpoint_state(判断sess是否存在

1. tf.nn.moments(x, axes=[0, 1, 2])  # 对前三个维度求平均值和标准差,结果为最后一个维度,即对每个feature_map求平均值和标准差 参数说明:x为输入的feature_map, axes=[0, 1, 2] 对三个维度求平均,即每一个feature_map都获得一个平均值和标准差 2.with tf.control_dependencies([train_mean, train_var]): 即执行with里面的操作时,会先执行train_mean 和…