The role of quantum and classical correlations in shrinking algorithms for optimization

Autor: Fischer, Victor, Passek, Maximilian, Wagner, Friedrich, Finžgar, Jernej Rudi, Palackal, Lilly, Mendl, Christian B.
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: The benefit of quantum computing for solving combinatorial optimization problems (COPs) constitutes an open research question. In this work, we study the performance of a shrinking algorithm for COPs. The algorithm leverages correlations extracted from quantum or classical subroutines to recursively simplify the problem. We compare the performance of the algorithm equipped with correlations from the quantum approximate optimization algorithm (QAOA) as well as the classical linear programming (LP) and semi-definite programming (SDP) relaxations. This allows us to benchmark the utility of QAOA correlations against established classical relaxation algorithms. We apply the recursive algorithm to MaxCut problem instances with up to a hundred vertices at different graph densities. Our results indicate that LP outperforms all other approaches for low-density instances, while SDP excels for high-density problems. Moreover, the shrinking algorithm proves to be a viable alternative to established methods of rounding LP and SDP relaxations. In addition, the recursive shrinking algorithm outperforms its bare counterparts for all three types of correlations, i.e., LP with spanning tree rounding, the Goemans-Williamson algorithm, and conventional QAOA. While the lowest depth QAOA consistently yields worse results than the SDP, our tensor network experiments show that the performance increases significantly for deeper QAOA circuits.
Comment: 11 pages, 5 figures. Submitted to IEEE for possible publication
Databáze: arXiv