搜索结果: 1-7 共查到“密码学 SKINNY”相关记录7条 . 查询时间(0.062 秒)
Bit-Sliding: A Generic Technique for Bit-Serial Implementations of SPN-based Primitives -- Applications to AES, PRESENT and SKINNY
Bit-serial implementations bit-slide lightweight cryptography
2017/6/26
Area minimization is one of the main efficiency criterion for lightweight encryption primitives. While reducing the implementation data path is a natural strategy for achieving this goal, Substitution...
Analysis of AES, SKINNY, and Others with Constraint Programming
Differential Cryptanalysis Integral Cryptanalysis Constraint Programming
2017/2/24
Search for different types of distinguishers are common tasks in symmetric-key cryptanalysis. In this work, we employ the constraint programming (CP) technique to tackle such problems. First, we show ...
Security Analysis of SKINNY under Related-Tweakey Settings
Block cipher SKINNY Impossible Differential Attack
2016/12/7
In CRYPTO'16, a new family of tweakable lightweight block ciphers - SKINNY was introduced. Denoting the variants of SKINNY as SKINNY-nn-tt, where nn represents the block size and tt represents the twe...
Impossible Differential Cryptanalysis of Reduced-Round SKINNY
Cryptanalysis Impossible differential attacks Tweakable
2016/12/7
SKINNY is a new lightweight tweakable block cipher family proposed by Beierle etet alal. in CRYPTO 2016. SKINNY-nn-tt is a block cipher with nn-bit state and tt-bit tweakey (key and tweak). It is desi...
Cryptanalysis of Reduced round SKINNY Block Cipher
SKINNY Zero-correlation linear cryptanalysis Related-tweakey impossible differential cryptanalysis
2016/12/7
SKINNY is a family of lightweight tweakable block ciphers designed to have the smallest hardware footprint. In this paper, we present zero-correlation linear approximations and related-tweake impossib...
Related-Key Impossible-Differential Attack on Reduced-Round SKINNY
Symmetric cryptography cryptanalysis tweakable block cipher
2016/12/7
At CRYPTO'16, Beierle et al. presented SKINNY, a family of lightweight tweakable block ciphers intended to compete with SIMON. SKINNY can be implemented efficiently in both soft- and hardware, possess...
The SKINNY Family of Block Ciphers and its Low-Latency Variant MANTIS
lightweight encryption low-latency tweakable block cipher
2016/6/29
We present a new tweakable block cipher family SKINNY, whose goal is
to compete with NSA recent design SIMON in terms of hardware/software performances,
while proving in addition much stronger secur...