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Quantum Portfolio Optimization with Investment Bands and Target Volatility

Author

Listed:
  • Samuel Palmer
  • Serkan Sahin
  • Rodrigo Hernandez
  • Samuel Mugel
  • Roman Orus

Abstract

In this paper we show how to implement in a simple way some complex real-life constraints on the portfolio optimization problem, so that it becomes amenable to quantum optimization algorithms. Specifically, first we explain how to obtain the best investment portfolio with a given target risk. This is important in order to produce portfolios with different risk profiles, as typically offered by financial institutions. Second, we show how to implement individual investment bands, i.e., minimum and maximum possible investments for each asset. This is also important in order to impose diversification and avoid corner solutions. Quite remarkably, we show how to build the constrained cost function as a quadratic binary optimization (QUBO) problem, this being the natural input of quantum annealers. The validity of our implementation is proven by finding the optimal portfolios, using D-Wave Hybrid and its Advantage quantum processor, on portfolios built with all the assets from S&P100 and S&P500. Our results show how practical daily constraints found in quantitative finance can be implemented in a simple way in current NISQ quantum processors, with real data, and under realistic market conditions. In combination with clustering algorithms, our methods would allow to replicate the behaviour of more complex indexes, such as Nasdaq Composite or others, in turn being particularly useful to build and replicate Exchange Traded Funds (ETF).

Suggested Citation

  • Samuel Palmer & Serkan Sahin & Rodrigo Hernandez & Samuel Mugel & Roman Orus, 2021. "Quantum Portfolio Optimization with Investment Bands and Target Volatility," Papers 2106.06735, arXiv.org, revised Aug 2021.
  • Handle: RePEc:arx:papers:2106.06735
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    Cited by:

    1. Fred Glover & Gary Kochenberger & Rick Hennig & Yu Du, 2022. "Quantum bridge analytics I: a tutorial on formulating and using QUBO models," Annals of Operations Research, Springer, vol. 314(1), pages 141-183, July.
    2. Martin Vesel'y, 2022. "Application of Quantum Computers in Foreign Exchange Reserves Management," Papers 2203.15716, arXiv.org.
    3. Martin Vesely, 2022. "Application of Quantum Computers in Foreign Exchange Reserves Management," Working Papers 2022/2, Czech National Bank.
    4. Ying-Chang Lu & Chao-Ming Fu & Lien-Po Yu & Yen-Jui Chang & Ching-Ray Chang, 2024. "Quantum-Inspired Portfolio Optimization In The QUBO Framework," Papers 2410.05932, arXiv.org, revised Nov 2024.

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