Graph Random Features for Scalable Gaussian Processes
Abstract
We study the application of graph random features (GRFs) - a recently introduced stochastic estimator of graph node kernels - to scalable Gaussian processes on discrete input spaces. We prove that (under mild assumptions) Bayesian inference with GRFs enjoys O(N3/2) time complexity with respect to the number of nodes N, compared to O(N3) for exact kernels. Substantial wall-clock speedups and memory savings unlock Bayesian optimisation on graphs with over 106 nodes on a single computer chip, whilst preserving competitive performance.
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