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tensorflow_graph_computing_example.py
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tensorflow_graph_computing_example.py
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import tensorflow as tf
import numpy as np
import random
def func(x):
if x <= 0: return -x ** 2
else:
return x**(3/4)
training_data = [random.randrange(-100, 100) for _ in range(100000)]
training_Y = [func(x) for x in training_data]
training_data = [x for x in training_data]
print(training_data[:10])
print(training_Y[:10])
x = tf.placeholder(dtype=tf.float32, shape=[None, 1], name='x')
y = tf.placeholder(dtype=tf.float32, shape=[None, 1], name='y')
a = tf.Variable(dtype=tf.float32, initial_value=tf.random_normal(stddev=0.05, shape=[1, 10]), name='a1')
a2 = tf.Variable(dtype=tf.float32, initial_value=tf.random_normal(stddev=0.5, shape=[10, 15]), name='a2')
a3 = tf.Variable(dtype=tf.float32, initial_value=tf.random_normal(stddev=0.5, shape=[15, 1]), name='a3')
b = tf.Variable(dtype=tf.float32, initial_value=tf.constant(0.0), name='b1')
b2 = tf.Variable(dtype=tf.float32, initial_value=tf.constant(0.0), name='b2')
b3 = tf.Variable(dtype=tf.float32, initial_value=tf.constant(0.0), name='b3')
output1 = tf.matmul(x, a) + b
output1 = tf.nn.relu(output1)
output2 = tf.matmul(output1, a2) + b2
output2 = tf.nn.relu(output2)
output3 = tf.matmul(output2, a3) + b3
y_hat = output3
loss = tf.losses.mean_squared_error(y_hat, y)
op = tf.train.AdamOptimizer(learning_rate=0.01).minimize(loss)
def change_to_vector(L):
return [[e] for e in L]
def train_one_batch(sess, train_x, train_y, verbose=False):
batch_x = np.array(change_to_vector(train_x))
batch_y = np.array(change_to_vector(train_y))
l, _ = sess.run([loss, op], feed_dict={x: batch_x, y: batch_y})
if verbose: print(l)
def train_one_epoch(sess, batch_size, X, Y):
batch_num = len(X) // batch_size
np.random.shuffle(X)
np.random.shuffle(Y)
for i in range(batch_num):
batch_x = X[i * batch_size: (i + 1) * batch_size]
batch_y = Y[i * batch_size: (i + 1) * batch_size]
if i % 100 == 0: verbose = True
else:
verbose = False
train_one_batch(sess, batch_x, batch_y, verbose)
with tf.Session() as sess:
sess.run(tf.initialize_all_variables())
epoch = 500
for i in range(epoch):
train_one_epoch(sess, 128, training_data, training_Y)