Quantum (Feb 2024)

Continuous-time quantum walks for MAX-CUT are hot

  • Robert J. Banks,
  • Ehsan Haque,
  • Farah Nazef,
  • Fatima Fethallah,
  • Fatima Ruqaya,
  • Hamza Ahsan,
  • Het Vora,
  • Hibah Tahir,
  • Ibrahim Ahmad,
  • Isaac Hewins,
  • Ishaq Shah,
  • Krish Baranwal,
  • Mannan Arora,
  • Mateen Asad,
  • Mubasshirah Khan,
  • Nabian Hasan,
  • Nuh Azad,
  • Salgai Fedaiee,
  • Shakeel Majeed,
  • Shayam Bhuyan,
  • Tasfia Tarannum,
  • Yahya Ali,
  • Dan E. Browne,
  • P. A. Warburton

DOI
https://doi.org/10.22331/q-2024-02-13-1254
Journal volume & issue
Vol. 8
p. 1254

Abstract

Read online

By exploiting the link between time-independent Hamiltonians and thermalisation, heuristic predictions on the performance of continuous-time quantum walks for MAX-CUT are made. The resulting predictions depend on the number of triangles in the underlying MAX-CUT graph. We extend these results to the time-dependent setting with multi-stage quantum walks and Floquet systems. The approach followed here provides a novel way of understanding the role of unitary dynamics in tackling combinatorial optimisation problems with continuous-time quantum algorithms.