一看就懂的Tensorflow实战(多层感知机模型Eager API)

2020-07-29 11:22:28 浏览数 (1)

Tensorflow多层感知机Eager API

代码语言:javascript复制
from __future__ import print_function

import tensorflow as tf
import tensorflow.contrib.eager as tfe
设置 Eager API
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# Set Eager API
tfe.enable_eager_execution()
导入数据集
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# Import MNIST data
from tensorflow.examples.tutorials.mnist import input_data
mnist = input_data.read_data_sets("./data/", one_hot=False)

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Extracting ./data/train-images-idx3-ubyte.gz
Extracting ./data/train-labels-idx1-ubyte.gz
Extracting ./data/t10k-images-idx3-ubyte.gz
Extracting ./data/t10k-labels-idx1-ubyte.gz
定义参数
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# Parameters
learning_rate = 0.001
num_steps = 1000
batch_size = 128
display_step = 100

# Network Parameters
n_hidden_1 = 256 # 1st layer number of neurons
n_hidden_2 = 256 # 2nd layer number of neurons
num_input = 784 # MNIST data input (img shape: 28*28)
num_classes = 10 # MNIST total classes (0-9 digits)
数据拆分成批
代码语言:javascript复制
# Using TF Dataset to split data into batches
dataset = tf.data.Dataset.from_tensor_slices(
    (mnist.train.images, mnist.train.labels)).batch(batch_size)
dataset_iter = tfe.Iterator(dataset)
定义多层感知机模型
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# Define the neural network. To use eager API and tf.layers API together,
# we must instantiate a tfe.Network class as follow:
class NeuralNet(tfe.Network):
    def __init__(self):
        # Define each layer
        super(NeuralNet, self).__init__()
        # Hidden fully connected layer with 256 neurons
        self.layer1 = self.track_layer(
            tf.layers.Dense(n_hidden_1, activation=tf.nn.relu))
        # Hidden fully connected layer with 256 neurons
        self.layer2 = self.track_layer(
            tf.layers.Dense(n_hidden_2, activation=tf.nn.relu))
        # Output fully connected layer with a neuron for each class
        self.out_layer = self.track_layer(tf.layers.Dense(num_classes))

    def call(self, x):
        x = self.layer1(x)
        x = self.layer2(x)
        return self.out_layer(x)


neural_net = NeuralNet()
定义损失函数 优化方法 准确率
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# Cross-Entropy loss function
def loss_fn(inference_fn, inputs, labels):
    # Using sparse_softmax cross entropy
    return tf.reduce_mean(tf.nn.sparse_softmax_cross_entropy_with_logits(
        logits=inference_fn(inputs), labels=labels))


# Calculate accuracy
def accuracy_fn(inference_fn, inputs, labels):
    prediction = tf.nn.softmax(inference_fn(inputs))
    correct_pred = tf.equal(tf.argmax(prediction, 1), labels)
    return tf.reduce_mean(tf.cast(correct_pred, tf.float32))


# SGD Optimizer
optimizer = tf.train.AdamOptimizer(learning_rate=learning_rate)

# Compute gradients
grad = tfe.implicit_gradients(loss_fn)
训练
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# Training
average_loss = 0.
average_acc = 0.
for step in range(num_steps):

    # Iterate through the dataset
    try:
        d = dataset_iter.next()
    except StopIteration:
        # Refill queue
        dataset_iter = tfe.Iterator(dataset)
        d = dataset_iter.next()

    # Images
    x_batch = d[0]
    # Labels
    y_batch = tf.cast(d[1], dtype=tf.int64)

    # Compute the batch loss
    batch_loss = loss_fn(neural_net, x_batch, y_batch)
    average_loss  = batch_loss
    # Compute the batch accuracy
    batch_accuracy = accuracy_fn(neural_net, x_batch, y_batch)
    average_acc  = batch_accuracy

    if step == 0:
        # Display the initial cost, before optimizing
        print("Initial loss= {:.9f}".format(average_loss))

    # Update the variables following gradients info
    optimizer.apply_gradients(grad(neural_net, x_batch, y_batch))

    # Display info
    if (step   1) % display_step == 0 or step == 0:
        if step > 0:
            average_loss /= display_step
            average_acc /= display_step
        print("Step:", 'd' % (step   1), " loss=",
              "{:.9f}".format(average_loss), " accuracy=",
              "{:.4f}".format(average_acc))
        average_loss = 0.
        average_acc = 0.

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Initial loss= 2.362281322
Step: 0001  loss= 2.362281322  accuracy= 0.0391
Step: 0100  loss= 0.583163500  accuracy= 0.8291
Step: 0200  loss= 0.247603565  accuracy= 0.9281
Step: 0300  loss= 0.214451462  accuracy= 0.9360
Step: 0400  loss= 0.182251021  accuracy= 0.9452
Step: 0500  loss= 0.139149994  accuracy= 0.9585
Step: 0600  loss= 0.120601922  accuracy= 0.9649
Step: 0700  loss= 0.114957660  accuracy= 0.9655
Step: 0800  loss= 0.111238368  accuracy= 0.9660
Step: 0900  loss= 0.085549861  accuracy= 0.9754
Step: 1000  loss= 0.079464689  accuracy= 0.9752
测试评估
代码语言:javascript复制
# Evaluate model on the test image set
testX = mnist.test.images
testY = mnist.test.labels

test_acc = accuracy_fn(neural_net, testX, testY)
print("Testset Accuracy: {:.4f}".format(test_acc))

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Testset Accuracy: 0.9707

参考

[TensorFlow-Examples]https://github.com/aymericdamien/TensorFlow-Examples

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