Tensor Programs VI: Feature Learning in Infinite-Depth Neural Networks

October 03, 2023 ยท Declared Dead ยท ๐Ÿ› International Conference on Learning Representations

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Authors Greg Yang, Dingli Yu, Chen Zhu, Soufiane Hayou arXiv ID 2310.02244 Category cs.NE: Neural & Evolutionary Cross-listed cond-mat.dis-nn, math.PR Citations 68 Venue International Conference on Learning Representations Last Checked 4 months ago
Abstract
By classifying infinite-width neural networks and identifying the *optimal* limit, Tensor Programs IV and V demonstrated a universal way, called $ฮผ$P, for *widthwise hyperparameter transfer*, i.e., predicting optimal hyperparameters of wide neural networks from narrow ones. Here we investigate the analogous classification for *depthwise parametrizations* of deep residual networks (resnets). We classify depthwise parametrizations of block multiplier and learning rate by their infinite-width-then-depth limits. In resnets where each block has only one layer, we identify a unique optimal parametrization, called Depth-$ฮผ$P that extends $ฮผ$P and show empirically it admits depthwise hyperparameter transfer. We identify *feature diversity* as a crucial factor in deep networks, and Depth-$ฮผ$P can be characterized as maximizing both feature learning and feature diversity. Exploiting this, we find that absolute value, among all homogeneous nonlinearities, maximizes feature diversity and indeed empirically leads to significantly better performance. However, if each block is deeper (such as modern transformers), then we find fundamental limitations in all possible infinite-depth limits of such parametrizations, which we illustrate both theoretically and empirically on simple networks as well as Megatron transformer trained on Common Crawl.
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