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Quantum Annealing Solutions for the Closest String Problem with D-Wave Systems

Published 19 Oct 2023 in quant-ph, cs.ET, and math.OC | (2310.12852v1)

Abstract: The Closest String Problem is an NP-complete problem which appears more commonly in bioinformatics and coding theory. Less surprisingly, classical approaches have been pursued with two prominent algorithms being the genetic algorithm and simulated annealing. Latest improvements to quantum computing devices with a specialization in optimization tasks such as DWave systems, suggest that an attempt to embed the problem in a model accepted by such systems is worthwhile. In this work, two QUBO formulations have been proposed, with one being a slight modification over the other. Subsequently, an evaluation based on a few simple test cases had been carried out on both formulations. In this regard, the D-Wave annealers have been used, while providing guidelines for optimality on certain platform-specific concerns. For evaluation purposes, a metric termed Occurrence Ratio (OR) has been defined. With minimal hyperparameter tuning, the expected solutions were obtained for every test case and the optimality was guaranteed. To address practical and implementation issues, an inherent decomposition strategy based on the possibility of having substrings has been elucidated to accommodate the restricted qubit count. Conclusively, the need for further investigation on tuning the hyperparameters is emphasized.

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