A Very Compact Rijndael S-Box

Abstract

One key step in the Advanced Encryption Standard (AES), or Rijndael, algorithm is called the "S-box", the only nonlinear step in each round of encryption/decryption. A wide variety of implementations of AES have been proposed, for various desiderata, that effect the S-box in various ways. In particular, the most compact implementation to date of Satoh et al. performs the 8-bit Galois field inversion of the S-box using subfields of 4 bits and of 2 bits. This work describes a refinement of this approach that minimizes the circuitry, and hence the chip area, required for the S-box. While Satoh used polynomial bases at each level, we consider also normal bases, with arithmetic optimizations; altogether, 432 different cases were considered. The isomorphism bit matrices are fully optimized, improving on the "greedy algorithm." The best case reduces the number of gates in the S-box by 16%. This decrease in chip area could be important for area-limited hardware implementations, e.g., smart cards. And for applications using larger chips, this approach could allow more copies of the S-box, for parallelism and/or pipelining in non-feedback modes of AES.

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Document Details

Document Type
Technical Report
Publication Date
Sep 28, 2004
Accession Number
ADA427050

Entities

People

  • D. Canright

Organizations

  • Naval Postgraduate School

Tags

Communities of Interest

  • Energy and Power Technologies
  • Materials and Manufacturing Processes

DTIC Thesaurus Topics

  • Algorithms
  • Applied Mathematics
  • Arithmetic
  • Cryptography
  • Electronic Commerce
  • Feedback
  • Inversion
  • Mathematics
  • Nand Gates
  • National Security
  • Notation
  • Numbers
  • Optimization
  • Polynomials
  • Real Numbers
  • Standards
  • Xor Gates

Fields of Study

  • Computer science
  • Mathematics

Readers

  • Computer Programming and Software Development.
  • Integrated Circuit Design and Technology.