Bridging Classical and Quantum String Matching: A Computational Reformulation of Bit-Parallelism
March 07, 2025 Β· Declared Dead Β· π arXiv.org
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Authors
Simone Faro, Arianna Pavone, Caterina Viola
arXiv ID
2503.05596
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.IR
Citations
0
Venue
arXiv.org
Last Checked
4 months ago
Abstract
String matching is a fundamental problem in computer science, with critical applications in text retrieval, bioinformatics, and data analysis. Among the numerous solutions that have emerged for this problem in recent decades, bit-parallelism has significantly enhanced their practical efficiency, leading to the development of several optimized approaches for both exact and approximate string matching. However, their potential in quantum computing remains largely unexplored. This paper presents a novel pathway that not only translates bit-parallel string matching algorithms into the quantum framework but also enhances their performance to achieve a quadratic speedup through Grover's search. By embedding quantum search within a bit-parallel model, we reduce the time complexity of string matching, establishing a structured pathway for transforming classical algorithms into quantum solutions with provable computational advantages. Beyond exact matching, this technique offers a foundation for tackling a wide range of non-standard string matching problems, opening new avenues for efficient text searching in the quantum era. To demonstrate the simplicity and adaptability of the technique presented in this paper, we apply this translation and adaptation process to two landmark bit-parallel algorithms: Shift-And for exact pattern matching and Shift-Add for approximate string matching with up to k errors.
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