MicSA reduces random-number generation in Monte Carlo simulations for 3D Ising spin glasses, supporting massively parallel GPU execution whose dynamics map to standard results via time rescaling.
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Cubic nonlinearity arrests growth of the amplified chiral mode in space-time modulated parametric oscillators, yielding steady finite-amplitude circulating motion predicted by a symmetry-reduced averaged equation and confirmed in elastic plate simulations.
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Microcanonical simulated annealing: Massively parallel Monte Carlo simulations with sporadic random-number generation
MicSA reduces random-number generation in Monte Carlo simulations for 3D Ising spin glasses, supporting massively parallel GPU execution whose dynamics map to standard results via time rescaling.
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Nonlinear stabilization of chiral modes in space-time modulated parametric oscillators
Cubic nonlinearity arrests growth of the amplified chiral mode in space-time modulated parametric oscillators, yielding steady finite-amplitude circulating motion predicted by a symmetry-reduced averaged equation and confirmed in elastic plate simulations.