Approaching the ground states of the random maximum two-satisfiability problem by a greedy single-spin flipping process

Abstract

In this brief report we explore the energy landscapes of two spin glass models using a greedy single-spin flipping process, Gmax. The ground-state energy density of the random maximum two-satisfiability problem is efficiently approached by Gmax. The achieved energy density e(t) decreases with the evolution time t as e(t)-e(∞)=h (10 t)-z with a small prefactor h and a scaling coefficient z > 1, indicating an energy landscape with deep and rugged funnel-shape regions. For the J Viana-Bray spin glass model, however, the greedy single-spin dynamics quickly gets trapped to a local minimal region of the energy landscape.