Lorenzo Stella, Giuseppe E. Santoro, Erio Tosatti
Published 2005-12-03Version 1
We present results for a variety of Monte Carlo annealing approaches, both classical and quantum, benchmarked against one another for the textbook optimization exercise of a simple one-dimensional double-well. In classical (thermal) annealing, the dependence upon the move chosen in a Metropolis scheme is studied and correlated with the spectrum of the associated Markov transition matrix. In quantum annealing, the Path-Integral Monte Carlo approach is found to yield non-trivial sampling difficulties associated with the tunneling between the two wells. The choice of fictitious quantum kinetic energy is also addressed. We find that a ``relativistic'' kinetic energy form, leading to a higher probability of long real space jumps, can be considerably more effective than the standard one.
Comments: 15 pages, 10 figures, REVTex 4
Journal: Phys. Rev. B 73, 144302 (2006)
Quantum versus Classical Annealing of Ising Spin Glasses
Monte Carlo studies of the chiral and spin orderings of the three-dimensional Heisenberg spin glass
Monte Carlo studies of the one-dimensional Ising spin glass with power-law interactions
