#coding:utf-8
#0导入模块,生成模拟数据集。
import tensorflow as tf
import numpy as np
BATCH_SIZE = 8
SEED = 23455
#基于seed产生随机数
rdm = np.random.RandomState(SEED)
#随机数返回32行2列的矩阵 表示32组 体积和重量 作为输入数据集
X = rdm.rand(32,2)
#从X这个32行2列的矩阵中 取出一行 判断如果和小于1 给Y赋值1 如果和不小于1 给Y赋值0
#作为输入数据集的标签(正确答案)
Y_ = [[int(x0 + x1 < 1)] for (x0, x1) in X]
print "X:\n",X
print "Y_:\n",Y_
#1定义神经网络的输入、参数和输出,定义前向传播过程。
x = tf.placeholder(tf.float32, shape=(None, 2))
y_= tf.placeholder(tf.float32, shape=(None, 1))
w1= tf.Variable(tf.random_normal([2, 3], stddev=1, seed=1))
w2= tf.Variable(tf.random_normal([3, 1], stddev=1, seed=1))
a = tf.matmul(x, w1)
y = tf.matmul(a, w2)
#2定义损失函数及反向传播方法。
loss_mse = tf.reduce_mean(tf.square(y-y_))
train_step = tf.train.GradientDescentOptimizer(0.001).minimize(loss_mse)
#train_step = tf.train.MomentumOptimizer(0.001,0.9).minimize(loss_mse)
#train_step = tf.train.AdamOptimizer(0.001).minimize(loss_mse)
#3生成会话,训练STEPS轮
with tf.Session() as sess:
init_op = tf.global_variables_initializer()
sess.run(init_op)
# 输出目前(未经训练)的参数取值。
print "w1:\n", sess.run(w1)
print "w2:\n", sess.run(w2)
print "\n"
# 训练模型。
STEPS = 3000
for i in range(STEPS):
start = (i*BATCH_SIZE) % 32
end = start + BATCH_SIZE
sess.run(train_step, feed_dict={x: X[start:end], y_: Y_[start:end]})
if i % 500 == 0:
total_loss = sess.run(loss_mse, feed_dict={x: X, y_: Y_})
print("After %d training step(s), loss_mse on all data is %g" % (i, total_loss))
# 输出训练后的参数取值。
print "\n"
print "w1:\n", sess.run(w1)
print "w2:\n", sess.run(w2)
