We’ve released the newest version of NIMBLE on CRAN and on our website. NIMBLE is a system for building and sharing analysis methods for statistical models, especially for hierarchical models and computationally-intensive methods (such as MCMC, Laplace approximation, and SMC).
This release provides provides extensive new functionality, including:
- A Pólya-gamma sampler, `sampler_polyagamma`, for conjugate sampling of linear predictor parameters in logistic regression model specifications, including handling zero inflation and stochastic design matrices. This sampler must be added to an MCMC configuration manually.
- A new sampler, `sampler_noncentered`, which samples the mean or standard deviation of a set of random effect values in a transformed space such that the random effects are deterministically shifted or scaled given new values of their hyperparameters. For random effects written in a centered parameterization, sampling is performed as if they had been written in a noncentered parameterization, thereby enabling a variant on the Yu and Meng (2011) interweaving sampling strategy of sampling in both parameterizations.This sampler must be added to an MCMC configuration manually.
- Adaptive Gauss-Hermite quadrature (AGHQ) for integrating over continuous latent effects, as an extension of NIMBLE’s Laplace approximation functionality. We also add user-friendly R functions, `runLaplace` and `runAGHQ`, for using Laplace and AGHQ approximation for maximum likelihood estimation.
- A more flexible optimization system via `nimOptim`, with support for `nlminb` built in as well as the capability for users to provide potentially arbitrary optimization functions in R.
- Allowing the use of nimbleFunctions with setup code in models, either for user-defined functions via `<-` or for user-defined distributions via `~`. This supports holding large objects outside of model nodes for use in models.
- A completely revamped MCEM algorithm, using automatic derivatives in the maximization when possible, fixing a bug so that any parts of the model not connected to the latent states are included in MLE calculations, giving greater control and adding minor extensions to the ascent-based MCEM approach, and converting `buildMCEM` to be a nimbleFunction rather than an R function.
In addition to the new functionality above, other enhancements and bug fixes include:
- Improving the speed of MCMC and MCMC building in certain cases.
- Adding an argument to buildMCMC controlling whether to initialize values in the model.
- Providing the ability to control the number of digits printed in C++ output.
- Allowing use of a categorical MCMC sampler with user-specified dcat-like distributions.
- Warning of use of backward indexing in models.
- Improve documentation of the LKJ distribution and of advanced aspects of writing code for derivative tracking using the AD system.
- Fixing an insufficient check for conjugacy in stick-breaking specifications of Bayesian nonparametric distributions.
- Fixing compilation failures occurring on Red Hat Linux.
- Reenabling functionality for user-provided Eigen library and related updates to the autoconf configuration used in package building.
- Enhancing functionality to support model macros, which will be fully released and documented in the future.
- Removing deprecated `is.na.vec` and `is.nan.vec` functions.
- Improving some warnings and error messages.
Please see the release notes on our website for more details.