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Paper detail

The Sequential Monte Carlo goes NUTS: Boosting Gravitational-Wave Inference

Sequential Monte Carlo (SMC) methods have recently been applied to gravitational-wave inference as a powerful alternative to standard sampling techniques, such as Nested Sampling. At the same time, gradient-based Markov Chain Monte Carlo algorithms, most notably the No-U-Turn Sampler (NUTS), provide an efficient way to explore high-dimensional parameter spaces. In this work we present SHARPy, a Bayesian inference framework that combines the parallelism and evidence-estimation capabilities of SMC with the state-of-the-art sampling performance of NUTS. Moreover, SHARPy exploits the local geometric structure of the posterior to further improve efficiency. Built on JAX and accelerated on GPUs, SHARPy performs gravitational-wave inference on binary black-hole events in around ten minutes, yielding posterior samples and Bayesian evidence estimates that are consistent with those obtained through Nested Sampling. This work sets a new milestone in GW inference with likelihood-based methods and paves the way for model comparison tasks to be accomplished in minutes.

preprint2026arXivOpen access
Gabriele DemasiGiulia CapurriMassimo LentiAngelo RicciardoneBarbara PatricelliAdriano Frattale MascioliLorenzo PiccariSaulo AlbuquerqueGianluca M. GuidiFrancesco PannaraleGiulia StrattaWalter Del Pozzo
astro-ph.COastro-ph.IMgr-qc
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Gabriele DemasiGiulia CapurriMassimo LentiAngelo RicciardoneBarbara PatricelliAdriano Frattale MascioliLorenzo PiccariSaulo AlbuquerqueGianluca M. GuidiFrancesco PannaraleGiulia StrattaWalter Del Pozzo

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