R package parallelMCMCcombine: Methods for combining independent subset Markov chain Monte Carlo (MCMC) posterior samples to estimate a posterior density given the full data set. Recent Bayesian Markov chain Monto Carlo (MCMC) methods have been developed for big data sets that are too large to be analyzed using traditional statistical methods. These methods partition the data into non-overlapping subsets, and perform parallel independent Bayesian MCMC analyses on the data subsets, creating independent subposterior samples for each data subset. These independent subposterior samples are combined through four functions in this package, including averaging across subset samples, weighted averaging across subsets samples, and kernel smoothing across subset samples. The four functions assume the user has previously run the Bayesian analysis and has produced the independent subposterior samples outside of the package; the functions use as input the array of subposterior samples. The methods have been demonstrated to be useful for Bayesian MCMC models including Bayesian logistic regression, Bayesian Gaussian mixture models and Bayesian hierarchical Poisson-Gamma models. The methods are appropriate for Bayesian hierarchical models with hyperparameters, as long as data values in a single level of the hierarchy are not split into subsets.
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References in zbMATH (referenced in 3 articles )
Showing results 1 to 3 of 3.
- Srivastava, Sanvesh; Li, Cheng; Dunson, David B.: Scalable Bayes via barycenter in Wasserstein space (2018)
- Scott, Steven L.: Comparing consensus Monte Carlo strategies for distributed Bayesian computation (2017)
- Alexey Miroshnikov, Erin Conlon: parallelMCMCcombine: An R Package for Bayesian Methods for Big Data and Analytics (2014) arXiv