A matrix approach for FCSR automata
From MaRDI portal
Publication:662175
DOI10.1007/S12095-010-0041-ZzbMath1251.94019OpenAlexW2072580053MaRDI QIDQ662175
Benjamin Pousse, Thierry P. Berger, François Arnault
Publication date: 21 February 2012
Published in: Cryptography and Communications (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s12095-010-0041-z
Formal languages and automata (68Q45) Cryptography (94A60) Data encryption (aspects in computer science) (68P25)
Related Items (6)
An Equivalence-Preserving Transformation of Shift Registers ⋮ On the arithmetic Walsh coefficients of Boolean functions ⋮ Matrix parametrized shift registers ⋮ A generalized birthday approach for efficiently finding linear relations in \(\ell\)-sequences ⋮ Fast construction of binary ring FCSRs for hardware stream ciphers ⋮ Practical construction of ring LFSRs and ring FCSRs with low diffusion delay for hardware cryptographic applications
Uses Software
Cites Work
- Unnamed Item
- Feedback shift registers, 2-adic span, and combiners with memory
- Algebraic feedback shift registers
- On binary signed digit representations of integers
- Algebraic Shift Register Sequences
- An Efficient State Recovery Attack on X-FCSR-256
- Periodicity and Distribution Properties of Combined FCSR Sequences
- Feedback With Carry Shift Registers Synthesis With the Euclidean Algorithm
- Breaking the F-FCSR-H Stream Cipher in Real Time
- Some Results on FCSR Automata With Applications to the Security of FCSR-Based Pseudorandom Generators
- A New Approach for FCSRs
- Software Oriented Stream Ciphers Based upon FCSRs in Diversified Mode
- Windmill Generators A generalization and an observation of how many there are
- Arithmetic crosscorrelations of feedback with carry shift register sequences
- 2-Adic shift registers
- Fibonacci and Galois representations of feedback-with-carry shift registers
- X-FCSR – A New Software Oriented Stream Cipher Based Upon FCSRs
- Galois LFSR, Embedded Devices and Side Channel Weaknesses
- Fast Software Encryption
This page was built for publication: A matrix approach for FCSR automata
