IEEE Access (Jan 2020)

Evolving Nonlinear S-Boxes With Improved Theoretical Resilience to Power Attacks

  • Alejandro Freyre-Echevarria,
  • Ismel Martinez-Diaz,
  • Carlos Miguel Legon Perez,
  • Guillermo Sosa-Gomez,
  • Omar Rojas

DOI
https://doi.org/10.1109/ACCESS.2020.3035163
Journal volume & issue
Vol. 8
pp. 202728 – 202737

Abstract

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Substitution boxes are the main nonlinear component of block ciphers. The security of these ciphers against linear, differential, or side-channel attacks is dependent on the design of such component and their intrinsic properties. There are several methods that aim to cryptographically define, generate, or search for strong substitution boxes. The application of combinatorial optimization algorithms is one of the most useful methodologies in this research area. In this article, we present a novel hybrid method based on the Leaders and Followers and hill-climbing over Hamming Weight Classes metaheuristics, coupled with a new trade-off fitness function that generates 8-bit bijective substitution boxes with good resisting properties towards classical cryptanalysis and side-channel attacks by power consumption. We address the best Pareto optimal solutions for the multi-objective optimization of non-linearity and confusion coefficient variance.

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