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A quantum parallel Markov chain Monte Carlo

Quantum Physics 2023-03-21 v4 Computation

Abstract

We propose a novel hybrid quantum computing strategy for parallel MCMC algorithms that generate multiple proposals at each step. This strategy makes the rate-limiting step within parallel MCMC amenable to quantum parallelization by using the Gumbel-max trick to turn the generalized accept-reject step into a discrete optimization problem. When combined with new insights from the parallel MCMC literature, such an approach allows us to embed target density evaluations within a well-known extension of Grover's quantum search algorithm. Letting PP denote the number of proposals in a single MCMC iteration, the combined strategy reduces the number of target evaluations required from O(P)\mathcal{O}(P) to O(P1/2)\mathcal{O}(P^{1/2}). In the following, we review the rudiments of quantum computing, quantum search and the Gumbel-max trick in order to elucidate their combination for as wide a readership as possible.

Keywords

Cite

@article{arxiv.2112.00212,
  title  = {A quantum parallel Markov chain Monte Carlo},
  author = {Andrew J. Holbrook},
  journal= {arXiv preprint arXiv:2112.00212},
  year   = {2023}
}

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To appear in JCGS

R2 v1 2026-06-24T07:58:55.352Z