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Variance Control for Black Box Variational Inference Using The James-Stein Estimator

Machine Learning 2024-05-10 v1 Machine Learning

Abstract

Black Box Variational Inference is a promising framework in a succession of recent efforts to make Variational Inference more ``black box". However, in basic version it either fails to converge due to instability or requires some fine-tuning of the update steps prior to execution that hinder it from being completely general purpose. We propose a method for regulating its parameter updates by reframing stochastic gradient ascent as a multivariate estimation problem. We examine the properties of the James-Stein estimator as a replacement for the arithmetic mean of Monte Carlo estimates of the gradient of the evidence lower bound. The proposed method provides relatively weaker variance reduction than Rao-Blackwellization, but offers a tradeoff of being simpler and requiring no fine tuning on the part of the analyst. Performance on benchmark datasets also demonstrate a consistent performance at par or better than the Rao-Blackwellized approach in terms of model fit and time to convergence.

Cite

@article{arxiv.2405.05485,
  title  = {Variance Control for Black Box Variational Inference Using The James-Stein Estimator},
  author = {Dominic B. Dayta},
  journal= {arXiv preprint arXiv:2405.05485},
  year   = {2024}
}
R2 v1 2026-06-28T16:21:34.292Z