Classical Annealing of Sherrington-Kirkpatrick Spin Glass Using Suzuki-Kubo Mean-field Ising Dynamics

Abstract

We propose and demonstrate numerically a fast classical annealing scheme for the Sherrington-Kirkpatrick (SK) spin glass model, employing the Suzuki-Kubo meanfield Ising dynamics (supplemented by a modified Thouless-Anderson-Palmer reaction field). The resultant dynamics, starting from any arbitrary paramagnetic phase (with local magnetizations mi= 1 for the ith spin, and the global magnetization m=0), takes the system quickly to an appropriate state with small local values of magnetization (mi) commensurate with the (frustrated) interactions. As the temperature decreases with the annealing, the configuration practically remains (in an effective adiabatic way) close to a low energy configuration as the magnitudes of mi's and the spin glass order parameter q grow to unity. While the configuration reached by the procedure is not the ground state, for an N-spin SK model (with N up to 10000) the deviation in the energy per spin E0N - E0 found by the annealing procedure scales as N-2/3, with E0 = -0.7629 0.0002, suggesting that in the thermodynamic limit the energy per spin of the low energy configurations converges to the ground state of the SK model (analytical estimate being E0 =-0.7631667265 …), fluctuation σN in E0N decreases as N-3/4 and the annealing time τN N, making this protocol highly efficient in estimating the ground state of the SK model.

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