On the training dynamics of deep networks with L_2 regularization
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We study the role of L_2 regularization in deep learning, and uncover simple relations between the performance of the model, the L_2 coefficient, the learning rate, and the number of training steps. These empirical relations hold when the network is overparameterized. They can be used to predict the optimal regularization parameter of a given model. In addition, based on these observations we propose a dynamical schedule for the regularization parameter that improves performance and speeds up training. We test these proposals in modern image classification settings. Finally, we show that these empirical relations can be understood theoretically in the context of infinitely wide networks. We derive the gradient flow dynamics of such networks, and compare the role of L_2 regularization in this context with that of linear models.
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