Gimli

Gimli : A Cross-Platform Permutation. This paper presents Gimli, a 384-bit permutation designed to achieve high security with high performance across a broad range of platforms, including 64-bit Intel/AMD server CPUs, 64-bit and 32-bit ARM smartphone CPUs, 32-bit ARM microcontrollers, 8-bit AVR microcontrollers, FPGAs, ASICs without side-channel protection, and ASICs with side-channel protection.

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References in zbMATH (referenced in 5 articles )

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  1. Flórez-Gutiérrez, Antonio; Leurent, Gaëtan; Naya-Plasencia, María; Perrin, Léo; Schrottenloher, André; Sibleyras, Ferdinand: Internal symmetries and linear properties: full-permutation distinguishers and improved collisions on \textsfGimli (2021)
  2. Hao, Yonglin; Leander, Gregor; Meier, Willi; Todo, Yosuke; Wang, Qingju: Modeling for three-subset division property without unknown subset (2021)
  3. Mennink, Bart; Neves, Samuel: On the resilience of Even-Mansour to invariant permutations (2021)
  4. Sadeghi, Sadegh; Rijmen, Vincent; Bagheri, Nasour: Proposing an MILP-based method for the experimental verification of difference-based trails: application to SPECK, SIMECK (2021)
  5. Belaïd, Sonia; Dagand, Pierre-Évariste; Mercadier, Darius; Rivain, Matthieu; Wintersdorff, Raphaël: Tornado: automatic generation of probing-secure masked bitsliced implementations (2020)