Quantum Meets Fine-Grained Complexity: Sublinear Time Quantum Algorithms for String Problems

François Le Gall,Saeed Seddighin

doi:10.1007/s00453-022-01066-z

Quantum Meets Fine-Grained Complexity: Sublinear Time Quantum Algorithms for String Problems

François Le Gall, Saeed Seddighin

Open Access

https://doi.org/10.1007/s00453-022-01066-z

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Journal: Algorithmica	Publication Date: Dec 5, 2022
Citations: 6	License type: open-access

Affiliation: Nagoya University, Toyota Technological Institute at Chicago

#Longest Common Substring #Ulam Distance + Show 8 more

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Abstract

Longest common substring (LCS), longest palindrome substring (LPS), and Ulam distance (UL) are three fundamental string problems that can be classically solved in near linear time. In this work, we present sublinear time quantum algorithms for these problems along with quantum lower bounds. Our results shed light on a very surprising fact: Although the classic solutions for LCS and LPS are almost identical (via suffix trees), their quantum computational complexities are different. While we give an exact {{tilde{O}}}(sqrt{n}) time algorithm for LPS, we prove that LCS needs at least time tilde{Omega }(n^{2/3}) even for 0/1 strings.

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