Physical Review Research (Nov 2023)

Financial risk management on a neutral atom quantum processor

  • Lucas Leclerc,
  • Luis Ortiz-Gutiérrez,
  • Sebastián Grijalva,
  • Boris Albrecht,
  • Julia R. K. Cline,
  • Vincent E. Elfving,
  • Adrien Signoles,
  • Loïc Henriet,
  • Gianni Del Bimbo,
  • Usman Ayub Sheikh,
  • Maitree Shah,
  • Luc Andrea,
  • Faysal Ishtiaq,
  • Andoni Duarte,
  • Sam Mugel,
  • Irene Cáceres,
  • Michel Kurek,
  • Roman Orús,
  • Achraf Seddik,
  • Oumaima Hammami,
  • Hacene Isselnane,
  • Didier M'tamon

DOI
https://doi.org/10.1103/PhysRevResearch.5.043117
Journal volume & issue
Vol. 5, no. 4
p. 043117

Abstract

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Machine learning models capable of handling the large data sets collected in the financial world can often become black boxes expensive to run. The quantum computing paradigm suggests new optimization techniques that, combined with classical algorithms, may deliver competitive, faster, and more interpretable models. In this paper we propose a quantum-enhanced machine learning solution for the prediction of credit rating downgrades, also known as fallen-angels forecasting in the financial risk management field. We implement this solution on a neutral atom quantum processing unit with up to 60 qubits on a real-life data set. We report performance that is competitive with the state-of-the-art random forest benchmark, whereas our model achieves better interpretability and comparable training times. We examine how to improve performance in the near term, validating our ideas with tensor-networks-based numerical simulations.