Financial Risk Management on a Neutral Atom Quantum Processor

Financial Risk Management on a Neutral Atom Quantum Processor

Machine Learning models capable of handling the large datasets 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 interp...

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Veröffentlicht in:arXiv.org 2024-04
Hauptverfasser: Leclerc, Lucas, Ortiz-Guitierrez, Luis, Grijalva, Sebastian, Albrecht, Boris, Cline, Julia R K, Elfving, Vincent E, Signoles, Adrien, Henriet, Loïc, Gianni Del Bimbo, Usman Ayub Sheikh, Shah, Maitree, Luc, Andrea, Ishtiaq, Faysal, Duarte, Andoni, Mugel, Samuel, Caceres, Irene, Kurek, Michel, Orus, Roman, Seddik, Achraf, Hammammi, Oumaima, Isselnane, Hacene, M'tamon, Didier
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Datasets
Machine learning
Mathematical models
Microprocessors
Neutral atoms
Optimization
Quantum computing
Qubits (quantum computing)
Risk management
Tensors
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Zusammenfassung:Machine Learning models capable of handling the large datasets 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 work 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 dataset. We report competitive performances against the state-of-the-art Random Forest benchmark whilst 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.
ISSN:2331-8422