Numerical integrators for confined Langevin dynamics

B. Leimkuhler, A. Sharma, M. V. Tretyakov

Research output: Working paperPreprint

Abstract / Description of output

We derive and analyze numerical methods for weak approximation of underdamped (kinetic) Langevin dynamics in bounded domains. First-order methods are based on an Euler-type scheme interlaced with collisions with the boundary. To achieve second order, composition schemes are derived based on decomposition of the generator into collisional drift, impulse, and stochastic momentum evolution. In a deterministic setting, this approach would typically lead to first-order approximation, even in symmetric compositions, but we find that the stochastic method can provide second-order weak approximation with a single gradient evaluation, both at finite times and in the ergodic limit. We provide theoretical and numerical justification for this observation using model problems and compare and contrast the numerical performance of different choices of the ordering of the terms in the splitting scheme.
Original languageUndefined/Unknown
PublisherArXiv
Publication statusPublished - 25 Apr 2024

Keywords / Materials (for Non-textual outputs)

  • math.NA
  • cs.NA
  • math.PR
  • 65C30, 60H35, 60H10, 37H10

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