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Quantum-Inspired Magnetic Hamiltonian Monte Carlo

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  • Wilson Tsakane Mongwe
  • Rendani Mbuvha
  • Tshilidzi Marwala

Abstract

Hamiltonian Monte Carlo (HMC) is a Markov Chain Monte Carlo algorithm that is able to generate distant proposals via the use of Hamiltonian dynamics, which are able to incorporate first-order gradient information about the target posterior. This has driven its rise in popularity in the machine learning community in recent times. It has been shown that making use of the energy-time uncertainty relation from quantum mechanics, one can devise an extension to HMC by allowing the mass matrix to be random with a probability distribution instead of a fixed mass. Furthermore, Magnetic Hamiltonian Monte Carlo (MHMC) has been recently proposed as an extension to HMC and adds a magnetic field to HMC which results in non-canonical dynamics associated with the movement of a particle under a magnetic field. In this work, we utilise the non-canonical dynamics of MHMC while allowing the mass matrix to be random to create the Quantum-Inspired Magnetic Hamiltonian Monte Carlo (QIMHMC) algorithm, which is shown to converge to the correct steady state distribution. Empirical results on a broad class of target posterior distributions show that the proposed method produces better sampling performance than HMC, MHMC and HMC with a random mass matrix.

Suggested Citation

  • Wilson Tsakane Mongwe & Rendani Mbuvha & Tshilidzi Marwala, 2021. "Quantum-Inspired Magnetic Hamiltonian Monte Carlo," PLOS ONE, Public Library of Science, vol. 16(10), pages 1-14, October.
    • Handle: RePEc:plo:pone00:0258277
    DOI: 10.1371/journal.pone.0258277
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