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import math
import tensorflow as tf
import tensorflow.examples.tutorials.mnist as mnist

inputLayerNodeCount   = 784
hiddenLayer1NodeCount = 200
hiddenLayer2NodeCount = 100
hiddenLayer3NodeCount = 60
hiddenLayer4NodeCount = 30
outputLayerNodeCount  = 10

summaryLogDirectoryPath = "log_mnist_4_layer_relu_dropout_1_layer_softmax"

batchSize  = 100
epochCount = 10

minimumLearningRate = 0.0001
maximumLearningRate = 0.003
decaySpeed          = 2000
dropoutRate         = 0.75

mnistDatasets = mnist.input_data.read_data_sets("data", one_hot = True)

inputLayerTensor   = tf.placeholder(tf.float32, [None, inputLayerNodeCount])
learningRateTensor = tf.placeholder(tf.float32)
dropoutRateTensor  = tf.placeholder(tf.float32)

hiddenLayer1WeightVariable = tf.Variable(tf.truncated_normal([inputLayerNodeCount  , hiddenLayer1NodeCount], stddev = 0.1))
hiddenLayer1BiasVariable   = tf.Variable(tf.ones([hiddenLayer1NodeCount]) / 10)
hiddenLayer2WeightVariable = tf.Variable(tf.truncated_normal([hiddenLayer1NodeCount, hiddenLayer2NodeCount], stddev = 0.1))
hiddenLayer2BiasVariable   = tf.Variable(tf.ones([hiddenLayer2NodeCount]) / 10)
hiddenLayer3WeightVariable = tf.Variable(tf.truncated_normal([hiddenLayer2NodeCount, hiddenLayer3NodeCount], stddev = 0.1))
hiddenLayer3BiasVariable   = tf.Variable(tf.ones([hiddenLayer3NodeCount]) / 10)
hiddenLayer4WeightVariable = tf.Variable(tf.truncated_normal([hiddenLayer3NodeCount, hiddenLayer4NodeCount], stddev = 0.1))
hiddenLayer4BiasVariable   = tf.Variable(tf.ones([hiddenLayer4NodeCount]) / 10)
outputLayerWeightVariable  = tf.Variable(tf.truncated_normal([hiddenLayer4NodeCount, outputLayerNodeCount ], stddev = 0.1))
outputLayerBiasVariable    = tf.Variable(tf.zeros([outputLayerNodeCount]))

hiddenLayer1OutputTensor        = tf.nn.relu(tf.matmul(inputLayerTensor               , hiddenLayer1WeightVariable) + hiddenLayer1BiasVariable)
hiddenLayer1OutputTensorDropout = tf.nn.dropout(hiddenLayer1OutputTensor, dropoutRateTensor)
hiddenLayer2OutputTensor        = tf.nn.relu(tf.matmul(hiddenLayer1OutputTensorDropout, hiddenLayer2WeightVariable) + hiddenLayer2BiasVariable)
hiddenLayer2OutputTensorDropout = tf.nn.dropout(hiddenLayer2OutputTensor, dropoutRateTensor)
hiddenLayer3OutputTensor        = tf.nn.relu(tf.matmul(hiddenLayer2OutputTensorDropout, hiddenLayer3WeightVariable) + hiddenLayer3BiasVariable)
hiddenLayer3OutputTensorDropout = tf.nn.dropout(hiddenLayer3OutputTensor, dropoutRateTensor)
hiddenLayer4OutputTensor        = tf.nn.relu(tf.matmul(hiddenLayer3OutputTensorDropout, hiddenLayer4WeightVariable) + hiddenLayer4BiasVariable)
hiddenLayer4OutputTensorDropout = tf.nn.dropout(hiddenLayer4OutputTensor, dropoutRateTensor)
outputLayerOutputTensor         =            tf.matmul(hiddenLayer4OutputTensorDropout, outputLayerWeightVariable ) + outputLayerBiasVariable
outputLayerOutputTensorSoftmax  = tf.nn.softmax(outputLayerOutputTensor)

correctOutputTensor = tf.placeholder(tf.float32, [None, outputLayerNodeCount])

costTensor = tf.nn.softmax_cross_entropy_with_logits(logits = outputLayerOutputTensor, labels = correctOutputTensor)
costTensor = tf.reduce_mean(costTensor) * 100

correctPredictionTensor = tf.equal(tf.argmax(outputLayerOutputTensorSoftmax, 1), tf.argmax(correctOutputTensor, 1))
accuracyTensor          = tf.reduce_mean(tf.cast(correctPredictionTensor, tf.float32))

optimizerOperation = tf.train.AdamOptimizer(learningRateTensor).minimize(costTensor)

tf.summary.scalar("cost"    , costTensor    )
tf.summary.scalar("accuracy", accuracyTensor)

summaryTensor = tf.summary.merge_all()

with tf.Session() as session:
    session.run(tf.global_variables_initializer())
    fileWriter = tf.summary.FileWriter(summaryLogDirectoryPath, graph = tf.get_default_graph())
    batchCount = int(mnistDatasets.train.num_examples / batchSize)
    for epoch in range(epochCount):
        for batch in range(batchCount):
            batchInputNDArray, batchCorrectOutputNDArray = mnistDatasets.train.next_batch(batchSize)
            learningRatio = minimumLearningRate + (maximumLearningRate - minimumLearningRate) * math.exp(-batch / decaySpeed)
            _, summary = session.run([optimizerOperation, summaryTensor], feed_dict = {inputLayerTensor : batchInputNDArray, correctOutputTensor : batchCorrectOutputNDArray,\
                dropoutRateTensor : dropoutRate, learningRateTensor : learningRatio})
            fileWriter.add_summary(summary, epoch * batchCount + batch)
        print("Epoch : ", epoch)
    print("정확도 : ", accuracyTensor.eval(feed_dict = {inputLayerTensor : mnistDatasets.test.images, correctOutputTensor : mnistDatasets.test.labels,\
        dropoutRateTensor : dropoutRate}))
    print("학습을 완료했습니다.")
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Posted by 사용자 icodebroker

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