A Nonparametric Framework for Quantifying Generative Inference on Neuromorphic Systems

February 18, 2016 ยท Declared Dead ยท ๐Ÿ› International Symposium on Circuits and Systems

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Authors Ojash Neopane, Srinjoy Das, Ery Arias-Castro, Kenneth Kreutz-Delgado arXiv ID 1602.05996 Category cs.NE: Neural & Evolutionary Citations 2 Venue International Symposium on Circuits and Systems Last Checked 4 months ago
Abstract
Restricted Boltzmann Machines and Deep Belief Networks have been successfully used in probabilistic generative model applications such as image occlusion removal, pattern completion and motion synthesis. Generative inference in such algorithms can be performed very efficiently on hardware using a Markov Chain Monte Carlo procedure called Gibbs sampling, where stochastic samples are drawn from noisy integrate and fire neurons implemented on neuromorphic substrates. Currently, no satisfactory metrics exist for evaluating the generative performance of such algorithms implemented on high-dimensional data for neuromorphic platforms. This paper demonstrates the application of nonparametric goodness-of-fit testing to both quantify the generative performance as well as provide decision-directed criteria for choosing the parameters of the neuromorphic Gibbs sampler and optimizing usage of hardware resources used during sampling.
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