**T**he last day of the X fertilisation workshop at the casa matematicà Oaxaca, there were only three talks and only half of the participants. I lost the subtleties of the first talk by Andrea Agazzi on large deviations for chemical reactions, due to an emergency at work (Warwick). The second talk by Igor Barahona was somewhat disconnected from the rest of the conference, working on document textual analysis by way of algebraic data analysis (analyse des données) methods à la Benzécri. (Who was my office neighbour at Jussieu in the early 1990s.) In the last and final talk, Eric Vanden-Eijden made a link between importance sampling and PDMP, as an integral can be expressed via a trajectory of a path. A generalisation of path sampling, for almost any ODE. But also a competitor to nested sampling, waiting for the path to reach an Hamiltonian level, without some of the difficulties plaguing nested sampling like resampling. And involving continuous time processes. (Is there a continuous time version of ABC as well?!) Returning unbiased estimators of mean (the original integral) and variance. Example of a mixture example in dimension d=10 with k=50 components using only 100 paths.

## Archive for numerical integrator

## computational statistics and molecular simulation [18w5023]

Posted in pictures, Statistics, Travel, University life with tags 18w5023, Benzécri, BIRS, Casa Matemática Oaxaca, CMO, computational statistics, HMC, Jussieu, Mexico, molecular dynamics, Monte Carlos Statistical Methods, nested sampling, numerical integrator, path sampling, workshop on November 19, 2018 by xi'an## computational statistics and molecular simulation [18w5023]

Posted in Books, Kids, pictures, Statistics, Travel, University life with tags 18w5023, ABC, BIRS, Casa Matemática Oaxaca, CMO, computational statistics, crown of thorns, gerrymandering, HMC, killer robot, lead climbing, leapfrog integrator, Mexico, misspecified model, molecular dynamics, Monte Carlos Statistical Methods, Moreau-Yoshida, numerical integrator, overdamped Langevin algorithm, proximal optimisation, reversible jump MCMC, rock climbing, starfish, summary statistics, transferability, workshop on November 15, 2018 by xi'an **I** truly missed the gist of the first talk of the Wednesday morning of our X fertilisation workshop by Jianfeng Lu partly due to notations, although the topic very much correlated to my interests like path sampling, with an augmented version of HMC using an auxiliary indicator. And mentions made of BAOAB. Next, Marcello Pereyra spoke about Bayesian image analysis, with the difficulty of setting a prior on an image. In case of astronomical images there are motivations for an L¹ penalisation sparse prior. Sampling is an issue. Moreau-Yoshida proximal optimisation is used instead, in connection with our MCMC survey published in Stats & Computing two years ago. *Transferability* was a new concept for me, as introduced by Kerrie Mengersen (QUT), to extrapolate an estimated model to another system without using the posterior as a prior. With a great interlude about the crown of thorns starfish killer robot! Rather a prior determination based on historical data, in connection with recent (2018) Technometrics and Bayesian Analysis papers towards rejecting non-plausible priors. Without reading the papers (!), and before discussing the matter with Kerrie, here or in Marseille, I wonder at which level of precision this can be conducted. The use of summary statistics for prior calibration gave the approach an ABC flavour.

The hand-on session was Jonathan Mattingly’s discussion of gerrymandering reflecting on his experience at court! Hard to beat for an engaging talk reaching between communities. As it happens I discussed the original paper last year. Of course it was much more exciting to listen to Jonathan explaining his vision of the problem! Too bad I “had” to leave before the end for a [most enjoyable] rock climbing afternoon… To be continued at the dinner table! (Plus we got the complete explanation of the term gerrymandering, including this salamander rendering of the first identified as gerrymandered district!)

## computational statistics and molecular simulation [18w5023]

Posted in Statistics with tags 18w5023, BIRS, Casa Matemática Oaxaca, CMO, computational statistics, HMC, leapfrog integrator, Mexico, misspecified model, molecular dynamics, Monte Carlos Statistical Methods, numerical integrator, overdamped Langevin algorithm, reversible jump MCMC, workshop on November 13, 2018 by xi'an**T**his X fertilisation workshop Gabriel Stolz, Luke Bornn and myself organised towards reinforcing the interface between molecular dynamics and Monte Carlo statistical methods has now started! At the casa matematicà Oaxaca, the Mexican campus of BIRS, which is currently housed by a very nice hotel on the heights of Oaxaca. And after a fairly long flight for a large proportion of the participants. On the first day, Arthur Voter gave a fantastic “hand-on” review of molecular dynamics for material sciences, which was aimed at the statistician side of the audience and most helpful in my own understanding of the concepts and techniques at the source of HMC and PDMP algorithms. (Although I could not avoid a few mini dozes induced by jetlag.) Including the BAOAB version of HMC, which sounded to me like an improvement to investigate. The part on metastability, completed by a talk by Florian Maire, remained a wee bit mysterious [to me].

The shorter talks of the day all brought new perspectives and information to me (although they were definitely more oriented towards their “own” side of the audience than the hand-on lecture). For instance, Jesús María Sanz-Serna gave a wide ranging overview of numerical integrators and Tony Lelièvre presented a recent work on simulating measures supported by manifolds via an HMC technique constantly projecting over the manifold, with proper validation. (I had struggled with the paper this summer and this talk helped a lot.) There was a talk by Josh Fash on simulating implicit solvent models that mixed high-level programming and reversible jump MCMC, with an earlier talk by Yong Chen on variable dimension hidden Markov models that could have also alluded to reversible jump. Angela Bito talked about using ASIS (Ancillarity-sufficiency interweaving strategy) for improving the dynamics of an MCMC sampler associated with a spike & slab prior, the recentering-decentering cycle being always a sort of mystery to me [as to why it works better despite introducing multimodality in this case], and Gael Martin presented some new results on her on-going work with David Frazier about approximate Bayes with misspecified models, with the summary statistic being a score function that relates the work to the likelihood free approach of Bissiri et al.