Weight-Sharing Regularization

Abstract

Weight-sharing is ubiquitous in deep learning. Motivated by this, we propose a "weight-sharing regularization" penalty on the weights w ∈ Rd of a neural network, defined as R(w) = 1d - 1Σi > jd |wi - wj|. We study the proximal mapping of R and provide an intuitive interpretation of it in terms of a physical system of interacting particles. We also parallelize existing algorithms for proxR (to run on GPU) and find that one of them is fast in practice but slow (O(d)) for worst-case inputs. Using the physical interpretation, we design a novel parallel algorithm which runs in O(3 d) when sufficient processors are available, thus guaranteeing fast training. Our experiments reveal that weight-sharing regularization enables fully connected networks to learn convolution-like filters even when pixels have been shuffled while convolutional neural networks fail in this setting. Our code is available on github.

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