Neural Tangent Kernel at Initialization: Linear Width Suffices
Keywords: neural tangent kernel, deep learning theory, Hermite polynomial, neural networks
Abstract: In this paper we study the problem of lower bounding the minimum eigenvalue of the neural tangent kernel (NTK) at initialization, an important quantity for the theoretical analysis of training in neural networks. We consider feedforward neural networks with smooth activation functions. Without any distributional assumptions on the input, we present a novel result: we show that for suitable initialization variance, $\widetilde{\Omega}(n)$ width, where $n$ is the number of training samples, suffices to ensure that the NTK at initialization is positive definite, improving prior results for smooth activations under our setting. Prior to our work, the sufficiency of linear width has only been shown either for networks with ReLU activation functions, and sublinear width has been shown for smooth networks but with additional conditions on the distribution of the data. The technical challenge in the analysis stems from the layerwise inhomogeneity of smooth activation functions and we handle the challenge using generalized Hermite series expansion of such activations.
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