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Rank-normalization, Folding, and Localization: An Improved Rhat for Assessing Convergence of MCMC (with discussion)

Aki Vehtari, Andrew Gelman, Daniel Simpson, Bob Carpenter, Paul-Christian Bürkner

Bayesian Analysis, 16(2), pp. 667–718, 2021.


Abstract

Markov chain Monte Carlo is a key computational tool in Bayesian statistics, but it can be challenging to monitor the convergence of an iterative stochastic algorithm. In this paper we show that the convergence diagnostic R̂ of Gelman and Rubin (1992) has serious flaws. Traditional R̂ will fail to correctly diagnose convergence failures when the chain has a heavy tail or when the variance varies across the chains. In this paper we propose an alternative rank-based diagnostic that fixes these problems. We also introduce a collection of quantile-based local efficiency measures, along with a practical approach for computing Monte Carlo error estimates for quantiles. We suggest that common trace plots should be replaced with rank plots from multiple chains. Finally, we give recommendations for how these methods should be used in practice.

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BibTeX

@article{vehtari21_ba, title = {Rank-normalization, Folding, and Localization: An Improved Rhat for Assessing Convergence of MCMC (with discussion)}, author = {Vehtari, Aki and Gelman, Andrew and Simpson, Daniel and Carpenter, Bob and Bürkner, Paul-Christian}, year = {2021}, journal = {Bayesian Analysis}, volume = {16}, number = {2}, pages = {667--718}, doi = {10.1214/20-BA1221} }