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Paper detail

Quantum Parameterized Complexity

Parameterized complexity theory was developed in the 1990s to enrich the complexity-theoretic analysis of problems that depend on a range of parameters. In this paper we establish a quantum equivalent of classical parameterized complexity theory, motivated by the need for new tools for the classifications of the complexity of real-world problems. We introduce the quantum analogues of a range of parameterized complexity classes and examine the relationship between these classes, their classical counterparts, and well-studied problems. This framework exposes a rich classification of the complexity of parameterized versions of QMA-hard problems, demonstrating, for example, a clear separation between the Quantum Circuit Satisfiability problem and the Local Hamiltonian problem.

preprint2022arXivOpen access
Michael J. BremnerZhengfeng JiRyan L. MannLuke MathiesonMauro E. S. MoralesAlexis T. E. Shaw
Data Structures and AlgorithmsComputational Complexityquant-ph
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Michael J. BremnerZhengfeng JiRyan L. MannLuke MathiesonMauro E. S. MoralesAlexis T. E. Shaw

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