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arxiv: 2203.08002 · v1 · pith:OLPCOBEC · submitted 2022-03-15 · quant-ph · cs.CC· cs.DS

Quantum Parameterized Complexity

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classification quant-ph cs.CCcs.DS
keywords complexityparameterizedproblemsquantumclassesclassicalproblemrange
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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.

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Cited by 1 Pith paper

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  1. The Guided Local Hamiltonian Problem for Stoquastic Hamiltonians

    quant-ph 2025-09 unverdicted novelty 8.0

    The Guided Local Hamiltonian problem for stoquastic Hamiltonians is promise BPP-hard (even 2-local on lattices), BQP-hard under fixed local constraints, and admits a deterministic classical approximation algorithm whe...