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Erscheinungsjahr: 
2015
Schriftenreihe/Nr.: 
Sveriges Riksbank Working Paper Series No. 297
Verlag: 
Sveriges Riksbank, Stockholm
Zusammenfassung: 
The computing time for Markov Chain Monte Carlo (MCMC) algorithms can be prohibitively large for datasets with many observations, especially when the data density for each observation is costly to evaluate. We propose a framework where the likelihood function is estimated from a random subset of the data, resulting in substantially fewer density evaluations. The data subsets are selected using an efficient Probability Proportional-to-Size (PPS) sampling scheme, where the inclusion probability of an observation is proportional to an approximation of its contribution to the log-likelihood function. Three broad classes of approximations are presented. The proposed algorithm is shown to sample from a distribution that is within O(m-1/2) of the true posterior, where m is the subsample size. Moreover, the constant in the O(m-1/2) error bound of the likelihood is shown to be small and the approximation error is demonstrated to be negligible even for a small m in our applications. We propose a simple way to adaptively choose the sample size m during the MCMC to optimize sampling efficiency for a fixed computational budget. The method is applied to a bivariate probit model on a data set with half a million observations, and on a Weibull regression model with random effects for discrete-time survival data.
Schlagwörter: 
Bayesian inference
Markov Chain Monte Carlo
Pseudo-marginal MCMC
Big Data
Probability Proportional-to-Size sampling
Numerical integration
JEL: 
C11
C13
C15
C55
C83
Dokumentart: 
Working Paper
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