Paper 2026/786

Integral Resistance and Degree Bounds for Complex Linear Layers: Application to PRINCE and Lower-Latency Alternatives

Simon Gerhalter, Graz University of Technology
Maria Eichlseder, Graz University of Technology
Abstract

The integral-resistance property provides strong arguments against integral distinguishers. Recently, Zeng and Tian proposed a new method to show this property for AES. In this paper, we provide a generalized framework and tool called intres to extend and apply this method to other ciphers with complex linear layers. We derive properties that a cipher must fulfill in order for the method to be applicable. Furthermore, we introduce a degree propagation model which helps us determine the valid key masks for the integral-resistance matrix. The degree model can also be used to upper-bound the algebraic degree of cipher constructions. This allows us to provide tighter upper bounds for the degree of Rijndael-256. We propose algorithmic improvements to substantially decrease the runtime of the offline phase with the intres framework. As a result, we are able to show the integral-resistance property for 7 rounds of PRINCE and 6 rounds of Beanie. Finally, we develop a heuristic MILP-based approach to search for lower-latency alternatives to the MixColumns matrices of PRINCE while maintaining integral resistance. After showing that using this new matrix we still achieve 7-round integral resistance, we validate our method with SAT-based trail counting. While using a MixColumns matrix only optimized for integral resistance might affect security against other types of attacks, we believe these lower-latency matrices have their place in constructions similar to ZIP-ciphers, where integral resistance is particularly critical.

Metadata
Available format(s)
PDF
Category
Attacks and cryptanalysis
Publication info
Published elsewhere. SAC 2026
Keywords
Integral cryptanalysisIntegral resistance propertyDegree boundRijndael-256PRINCEMDSMILP
Contact author(s)
simon gerhalter @ tugraz at
maria eichlseder @ tugraz at
History
2026-04-23: approved
2026-04-21: received
See all versions
Short URL
https://ia.cr/2026/786
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2026/786,
      author = {Simon Gerhalter and Maria Eichlseder},
      title = {Integral Resistance and Degree Bounds for Complex Linear Layers: Application to {PRINCE} and Lower-Latency Alternatives},
      howpublished = {Cryptology {ePrint} Archive, Paper 2026/786},
      year = {2026},
      url = {https://eprint.iacr.org/2026/786}
}
Note: In order to protect the privacy of readers, eprint.iacr.org does not use cookies or embedded third party content.