Add to ORKGThe linear layer of block ciphers plays an important role in their security. In particular, ciphers designed following the wide-trail strategy use the branch number of the linear layer to derive bounds on the probability of linear and differential trails. At FSE 2014, the LS-design construction was introduced as a simple and regular structure to design bitsliced block ciphers. It considers the internal state as a bit matrix, and applies alternatively an identical S-Box on all the columns, and an identical L-Box on all the lines. Security bounds are derived from the branch number of the L-Box. In this paper, we focus on bitsliced linear layers inspired by the LS-design construction and the Spook AEAD algorithm. We study the construction of b...
Newly designed block ciphers are required to show resistance against known attacks, e.g., linear and...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
In this study, we accelerate Matsui\u27s search algorithm to search for the best differential and li...
Abstract. The linear layer is a core component in any substitution-permutation network block cipher....
Bit permutations are efficient linear functions often used for lightweight cipher designs. However, ...
Designing cryptographic permutations and block ciphers using a substitutionpermutation network (SPN)...
We present, for the first time, a general strategy for designing ARX symmetric-key primitives with p...
peer reviewedWe present, for the first time, a general strategy for designing ARX symmetric-key prim...
peer reviewedWe present, for the first time, a general strategy for designing ARX symmetric-key prim...
peer reviewedWe present, for the first time, a general strategy for designing ARX symmetric-key prim...
This thesis deals with symmetric-key algorithms and more specifically block ciphers and stream ciphe...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
International audienceSide-channel analysis is an important issue for the security of embedded crypt...
The main goal of this diploma work is the implementation of Matsui's linear cryptanalysis of DES and...
Newly designed block ciphers are required to show resistance against known attacks, e.g., linear and...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
In this study, we accelerate Matsui\u27s search algorithm to search for the best differential and li...
Abstract. The linear layer is a core component in any substitution-permutation network block cipher....
Bit permutations are efficient linear functions often used for lightweight cipher designs. However, ...
Designing cryptographic permutations and block ciphers using a substitutionpermutation network (SPN)...
We present, for the first time, a general strategy for designing ARX symmetric-key primitives with p...
peer reviewedWe present, for the first time, a general strategy for designing ARX symmetric-key prim...
peer reviewedWe present, for the first time, a general strategy for designing ARX symmetric-key prim...
peer reviewedWe present, for the first time, a general strategy for designing ARX symmetric-key prim...
This thesis deals with symmetric-key algorithms and more specifically block ciphers and stream ciphe...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
International audienceSide-channel analysis is an important issue for the security of embedded crypt...
The main goal of this diploma work is the implementation of Matsui's linear cryptanalysis of DES and...
Newly designed block ciphers are required to show resistance against known attacks, e.g., linear and...
We present the construction and implementation of an 8-bit S-box with a differential and linear bran...
In this study, we accelerate Matsui\u27s search algorithm to search for the best differential and li...