Toward Prediction of Financial Crashes with a D-Wave Quantum Annealer-Reference-Cited by-同舟云学术

Toward Prediction of Financial Crashes with a D-Wave Quantum Annealer

Published:2023-02-10 Issue:2 Volume:25 Page:323
ISSN:1099-4300
Container-title:Entropy
language:en
Short-container-title:Entropy

Author:

Ding Yongcheng¹²³^ORCID,Gonzalez-Conde Javier²⁴⁵,Lamata Lucas⁶⁷^ORCID,Martín-Guerrero José D.⁸⁹^ORCID,Lizaso Enrique¹⁰,Mugel Samuel¹⁰,Chen Xi²⁵^ORCID,Orús Román¹⁰¹¹¹²,Solano Enrique¹¹²¹³^ORCID,Sanz Mikel²⁴¹²¹⁴

Affiliation:

1. International Center of Quantum Artificial Intelligence for Science and Technology (QuArtist) and Department of Physics, Shanghai University, Shanghai 200444, China

2. Department of Physical Chemistry, University of the Basque Country UPV/EHU, Apartado 644, 48080 Bilbao, Spain

3. ProQuam Co., Ltd., Shanghai 200444, China

4. Quantum Mads, Uribitarte Kalea 6, 48001 Bilbao, Spain

5. EHU Quantum Center, University of the Basque Country UPV/EHU, Apartado 644, 48080 Bilbao, Spain

6. Departamento de Física Atómica, Molecular y Nuclear, Universidad de Sevilla, 41080 Sevilla, Spain

7. Instituto Carlos I de Física Teórica y Computacional, 18071 Granada, Spain

8. IDAL, Electronic Engineering Department, University of Valencia, Avgda. Universitat s/n, 46100 Burjassot, Spain

9. ValgrAI: Valencian Graduated School and Research Network of Artificial Intelligence, Camí de Vera, s/n, Edificio 3Q, 46022 Valencia, Spain

10. Multiverse Computing, Pio Baroja 37, 20008 San Sebastián, Spain

11. Donostia International Physics Center, Paseo Manuel de Lardizabal 4, 20018 San Sebastián, Spain

12. IKERBASQUE, Basque Foundation for Science, Plaza Euskadi 5, 48009 Bilbao, Spain

13. Kipu Quantum, Greifswalderstrasse 226, 10405 Berlin, Germany

14. Basque Center for Applied Mathematics (BCAM), Alameda de Mazarredo 14, 48009 Bilbao, Spain

Abstract

The prediction of financial crashes in a complex financial network is known to be an NP-hard problem, which means that no known algorithm can efficiently find optimal solutions. We experimentally explore a novel approach to this problem by using a D-Wave quantum annealer, benchmarking its performance for attaining a financial equilibrium. To be specific, the equilibrium condition of a nonlinear financial model is embedded into a higher-order unconstrained binary optimization (HUBO) problem, which is then transformed into a spin-1/2 Hamiltonian with at most, two-qubit interactions. The problem is thus equivalent to finding the ground state of an interacting spin Hamiltonian, which can be approximated with a quantum annealer. The size of the simulation is mainly constrained by the necessity of a large number of physical qubits representing a logical qubit with the correct connectivity. Our experiment paves the way for the codification of this quantitative macroeconomics problem in quantum annealers.

Publisher

MDPI AG

Subject

General Physics and Astronomy

Link

https://www.mdpi.com/1099-4300/25/2/323/pdf

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