Massively parallel Bayesian inference for transient gravitational-wave astronomy

  • Rory J E Smith
    School of Physics and Astronomy, Monash University, Clayton, VIC 3800, Australia
  • Gregory Ashton
    School of Physics and Astronomy, Monash University, Clayton, VIC 3800, Australia
  • Avi Vajpeyi
    School of Physics and Astronomy, Monash University, Clayton, VIC 3800, Australia
  • Colm Talbot
    School of Physics and Astronomy, Monash University, Clayton, VIC 3800, Australia

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<jats:title>ABSTRACT</jats:title> <jats:p>Understanding the properties of transient gravitational waves (GWs) and their sources is of broad interest in physics and astronomy. Bayesian inference is the standard framework for astrophysical measurement in transient GW astronomy. Usually, stochastic sampling algorithms are used to estimate posterior probability distributions over the parameter spaces of models describing experimental data. The most physically accurate models typically come with a large computational overhead which can render data analsis extremely time consuming, or possibly even prohibitive. In some cases highly specialized optimizations can mitigate these issues, though they can be difficult to implement, as well as to generalize to arbitrary models of the data. Here, we investigate an accurate, flexible, and scalable method for astrophysical inference: parallelized nested sampling. The reduction in the wall-time of inference scales almost linearly with the number of parallel processes running on a high-performance computing cluster. By utilizing a pool of several hundreds or thousands of CPUs in a high-performance cluster, the large wall times of many astrophysical inferences can be alleviated while simultaneously ensuring that any GW signal model can be used ‘out of the box’, i.e. without additional optimization or approximation. Our method will be useful to both the LIGO-Virgo-KAGRA collaborations and the wider scientific community performing astrophysical analyses on GWs. An implementation is available in the open source gravitational-wave inference library pBilby (parallel bilby).</jats:p>

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