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Large-width asymptotics for ReLU neural networks with $\alpha$-Stable initializations

Machine Learning 2023-01-05 v3 Statistics Theory Machine Learning Statistics Theory

Abstract

There is a recent and growing literature on large-width asymptotic properties of Gaussian neural networks (NNs), namely NNs whose weights are initialized as Gaussian distributions. Two popular problems are: i) the study of the large-width distributions of NNs, which characterizes the infinitely wide limit of a rescaled NN in terms of a Gaussian stochastic process; ii) the study of the large-width training dynamics of NNs, which characterizes the infinitely wide dynamics in terms of a deterministic kernel, referred to as the neural tangent kernel (NTK), and shows that, for a sufficiently large width, the gradient descent achieves zero training error at a linear rate. In this paper, we consider these problems for α\alpha-Stable NNs, namely NNs whose weights are initialized as α\alpha-Stable distributions with α(0,2]\alpha\in(0,2]. First, for α\alpha-Stable NNs with a ReLU activation function, we show that if the NN's width goes to infinity then a rescaled NN converges weakly to an α\alpha-Stable stochastic process. As a difference with respect to the Gaussian setting, our result shows that the choice of the activation function affects the scaling of the NN, that is: to achieve the infinitely wide α\alpha-Stable process, the ReLU activation requires an additional logarithmic term in the scaling with respect to sub-linear activations. Then, we study the large-width training dynamics of α\alpha-Stable ReLU-NNs, characterizing the infinitely wide dynamics in terms of a random kernel, referred to as the α\alpha-Stable NTK, and showing that, for a sufficiently large width, the gradient descent achieves zero training error at a linear rate. The randomness of the α\alpha-Stable NTK is a further difference with respect to the Gaussian setting, that is: within the α\alpha-Stable setting, the randomness of the NN at initialization does not vanish in the large-width regime of the training.

Keywords

Cite

@article{arxiv.2206.08065,
  title  = {Large-width asymptotics for ReLU neural networks with $\alpha$-Stable initializations},
  author = {Stefano Favaro and Sandra Fortini and Stefano Peluchetti},
  journal= {arXiv preprint arXiv:2206.08065},
  year   = {2023}
}

Comments

29 pages

R2 v1 2026-06-24T11:53:30.426Z