Dynamic Programming on a Quantum Annealer: Solving the RBC Model

48 Pages Posted: 14 Jun 2023

See all articles by Jesús Fernández-Villaverde

Jesús Fernández-Villaverde

University of Pennsylvania - Department of Economics; National Bureau of Economic Research (NBER)

Isaiah Hull

BI Norwegian Business School

Date Written: 2023

Abstract

We introduce a novel approach to solving dynamic programming problems, such as those in many economic models, on a quantum annealer, a specialized device that performs combinatorial optimization. Quantum annealers attempt to solve an NP-hard problem by starting in a quantum superposition of all states and generating candidate global solutions in milliseconds, irrespective of problem size. Using existing quantum hardware, we achieve an order-of-magnitude speed-up in solving the real business cycle model over benchmarks in the literature. We also provide a detailed introduction to quantum annealing and discuss its potential use for more challenging economic problems.

Keywords: computational methods, dynamic equilibrium economies, quantum computing, quantum annealing

JEL Classification: C630, C800, E370

Suggested Citation

Fernández-Villaverde, Jesús and Hull, Isaiah, Dynamic Programming on a Quantum Annealer: Solving the RBC Model (2023). CESifo Working Paper No. 10500, Available at SSRN: https://ssrn.com/abstract=4477988 or http://dx.doi.org/10.2139/ssrn.4477988

Jesús Fernández-Villaverde (Contact Author)

University of Pennsylvania - Department of Economics ( email )

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National Bureau of Economic Research (NBER)

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Isaiah Hull

BI Norwegian Business School ( email )

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Oslo, 0442
Norway

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