Quantum Algorithm for Approximating Maximum Independent Sets

• dc.contributor.author: Yu, Hongye
• dc.contributor.author: Wilczek, Frank
• dc.contributor.author: Wu, Biao
• dc.date.issued: 2021
• dc.identifier.uri: https://hdl.handle.net/1721.1/142336
• dc.description.abstract: <jats:p>We present a quantum algorithm for approximating maximum independent sets of a graph based on quantum non-Abelian adiabatic mixing in the sub-Hilbert space of degenerate ground states, which generates quantum annealing in a secondary Hamiltonian. For both sparse and dense random graphs <jats:italic>G</jats:italic>, numerical simulation suggests that our algorithm on average finds an independent set of size close to the maximum size <jats:italic>α</jats:italic>(<jats:italic>G</jats:italic>) in low polynomial time. The best classical algorithms, by contrast, produce independent sets of size about half of <jats:italic>α</jats:italic>(<jats:italic>G</jats:italic>) in polynomial time.</jats:p>
• dc.language.iso: en
• dc.publisher: IOP Publishing
• dc.relation.isversionof: 10.1088/0256-307X/38/3/030304
• dc.source: arXiv
• dc.type: Article
• dc.identifier.citation: Yu, Hongye, Wilczek, Frank and Wu, Biao. 2021. "Quantum Algorithm for Approximating Maximum Independent Sets." Chinese Physics Letters, 38 (3).
• dc.contributor.department: Massachusetts Institute of Technology. Center for Theoretical Physics
• dc.relation.journal: Chinese Physics Letters
• dc.eprint.version: Author's final manuscript
• mit.journal.volume: 38
• mit.journal.issue: 3