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Supervised and unsupervised deep learning applied to the majority vote model

Author

Listed:
  • Neto, J.F. Silva
  • Alencar, D.S.M.
  • Brito, L.T.
  • Alves, G.A.
  • Lima, F.W.S.
  • Macedo-Filho, A.
  • Ferreira, R.S.
  • Alves, T.F.A.

Abstract

We employ deep learning techniques to investigate the critical properties of the continuous phase transition in the majority vote model. In addition to deep learning, principal component analysis is utilized to analyze the transition. For supervised learning, dense neural networks are trained on spin configuration data generated via the kinetic Monte Carlo method. Using independently simulated configuration data, the neural network accurately identifies the critical point on both square and triangular lattices. Classical unsupervised learning with principal component analysis reproduces the magnetization and enables estimation of critical exponents, typically obtained via Monte Carlo importance sampling. Furthermore, deep unsupervised learning is performed using variational autoencoders, which reconstruct input spin configurations and generate artificial outputs. The autoencoders detect the phase transition through the loss function, quantifying the preservation of essential data features. We define a correlation function between the real and reconstructed data, and find that this correlation function is universal at the critical point. Variational autoencoders also serve as generative models, producing artificial spin configurations.

Suggested Citation

  • Neto, J.F. Silva & Alencar, D.S.M. & Brito, L.T. & Alves, G.A. & Lima, F.W.S. & Macedo-Filho, A. & Ferreira, R.S. & Alves, T.F.A., 2026. "Supervised and unsupervised deep learning applied to the majority vote model," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 683(C).
  • Handle: RePEc:eee:phsmap:v:683:y:2026:i:c:s037843712500860x
    DOI: 10.1016/j.physa.2025.131208
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