In this work, we investigate how the choice of the key-expansion algorithm and its interaction with the round function affect the resistance of Simon-like ciphers against rotational-XOR cryptanalysis. We observe that, among the key-expansion algorithms we consider, Simon is most resistant, while Simeck is much less so. Implications on lightweight ciphers design are discussed and open questions are proposed.</p
Recently, two families of ultra-lightweight block ciphers were proposed, SIMON and SPECK, which come...
International audienceSimon and Simeck are two lightweight block ciphers with a simple round functio...
We discuss the design rationale and analysis of the SIMON and SPECK lightweight block ciphers
In this work, we investigate how the choice of the key-expansion algorithm and its interaction with ...
Rotational-XOR (RX) cryptanalysis is a cryptanalytic method aimed at finding distinguishable statist...
Simeck is a new lightweight block cipher design based on combining the design principles of the Simo...
Recently, Ashur and Liu introduced the Rotational-XOR-difference approach which is a modification of...
Abstract. SIMON is a family of ten lightweight block ciphers published by Beaulieu et al. from U.S. ...
SIMON and SIMECK are two lightweight block ciphers with a simple round function using only word rota...
Abstract. SIMON is a family of lightweight block ciphers designed by the U.S. National Security Agen...
In the summer of 2013 NSA released a new family of lightweight block ciphers called SIMON. However t...
International audienceMany lightweight block ciphers apply a very simple key schedule in which the r...
This research paper is aimed at studying the generation of round keys (GRK) of the lightweight block...
SIMECK is a family of 3 lightweight block ciphers designed by Yang et al. They follow the framework ...
A master key of special length is manipulated based on the key schedule to create round sub-keys in ...
Recently, two families of ultra-lightweight block ciphers were proposed, SIMON and SPECK, which come...
International audienceSimon and Simeck are two lightweight block ciphers with a simple round functio...
We discuss the design rationale and analysis of the SIMON and SPECK lightweight block ciphers
In this work, we investigate how the choice of the key-expansion algorithm and its interaction with ...
Rotational-XOR (RX) cryptanalysis is a cryptanalytic method aimed at finding distinguishable statist...
Simeck is a new lightweight block cipher design based on combining the design principles of the Simo...
Recently, Ashur and Liu introduced the Rotational-XOR-difference approach which is a modification of...
Abstract. SIMON is a family of ten lightweight block ciphers published by Beaulieu et al. from U.S. ...
SIMON and SIMECK are two lightweight block ciphers with a simple round function using only word rota...
Abstract. SIMON is a family of lightweight block ciphers designed by the U.S. National Security Agen...
In the summer of 2013 NSA released a new family of lightweight block ciphers called SIMON. However t...
International audienceMany lightweight block ciphers apply a very simple key schedule in which the r...
This research paper is aimed at studying the generation of round keys (GRK) of the lightweight block...
SIMECK is a family of 3 lightweight block ciphers designed by Yang et al. They follow the framework ...
A master key of special length is manipulated based on the key schedule to create round sub-keys in ...
Recently, two families of ultra-lightweight block ciphers were proposed, SIMON and SPECK, which come...
International audienceSimon and Simeck are two lightweight block ciphers with a simple round functio...
We discuss the design rationale and analysis of the SIMON and SPECK lightweight block ciphers