add some code
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70
managed_components/78__esp-opus/dnn/training_tf2/pade.py
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70
managed_components/78__esp-opus/dnn/training_tf2/pade.py
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# Optimizing a rational function to optimize a tanh() approximation
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import numpy as np
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import tensorflow as tf
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from tensorflow.keras.models import Model
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from tensorflow.keras.layers import Input, GRU, Dense, Embedding, Reshape, Concatenate, Lambda, Conv1D, Multiply, Add, Bidirectional, MaxPooling1D, Activation
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import tensorflow.keras.backend as K
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from tensorflow.keras.optimizers import Adam, SGD
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def my_loss1(y_true, y_pred):
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return 1*K.mean(K.square(y_true-y_pred)) + 1*K.max(K.square(y_true-y_pred), axis=1)
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def my_loss2(y_true, y_pred):
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return .1*K.mean(K.square(y_true-y_pred)) + 1*K.max(K.square(y_true-y_pred), axis=1)
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def my_loss3(y_true, y_pred):
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return .01*K.mean(K.square(y_true-y_pred)) + 1*K.max(K.square(y_true-y_pred), axis=1)
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# Using these initializers to seed the approximation
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# with a reasonable starting point
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def num_init(shape, dtype=None):
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rr = tf.constant([[945], [105], [1]], dtype=dtype)
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#rr = tf.constant([[946.56757], [98.01368], [0.66841]], dtype=dtype)
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print(rr)
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return rr
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def den_init(shape, dtype=None):
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rr = tf.constant([[945], [420], [15]], dtype=dtype)
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#rr = tf.constant([[946.604], [413.342], [12.465]], dtype=dtype)
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print(rr)
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return rr
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x = np.arange(-10, 10, .01)
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N = len(x)
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x = np.reshape(x, (1, -1, 1))
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x2 = x*x
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x2in = np.concatenate([x2*0 + 1, x2, x2*x2], axis=2)
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yout = np.tanh(x)
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model_x = Input(shape=(None, 1,))
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model_x2 = Input(shape=(None, 3,))
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num = Dense(1, name='num', use_bias=False, kernel_initializer=num_init)
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den = Dense(1, name='den', use_bias=False, kernel_initializer=den_init)
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def ratio(x):
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return tf.minimum(1., tf.maximum(-1., x[0]*x[1]/x[2]))
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out_layer = Lambda(ratio)
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output = out_layer([model_x, num(model_x2), den(model_x2)])
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model = Model([model_x, model_x2], output)
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model.summary()
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model.compile(Adam(0.05, beta_1=0.9, beta_2=0.9, decay=2e-5), loss='mean_squared_error')
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model.fit([x, x2in], yout, batch_size=1, epochs=500000, validation_split=0.0)
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model.compile(Adam(0.001, beta_2=0.9, decay=1e-4), loss=my_loss1)
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model.fit([x, x2in], yout, batch_size=1, epochs=50000, validation_split=0.0)
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model.compile(Adam(0.0001, beta_2=0.9, decay=1e-4), loss=my_loss2)
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model.fit([x, x2in], yout, batch_size=1, epochs=50000, validation_split=0.0)
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model.compile(Adam(0.00001, beta_2=0.9, decay=1e-4), loss=my_loss3)
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model.fit([x, x2in], yout, batch_size=1, epochs=50000, validation_split=0.0)
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model.save_weights('tanh.h5')
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