搜索结果: 1-5 共查到“军事学 PRINTcipher”相关记录5条 . 查询时间(0.06 秒)
Linear Cryptanalysis of PRINTcipher --- Trails and Samples Everywhere
secret-key cryptography / cryptanalysis block cipher linear cryptanalysis finding samples key bit distinguisher
2012/3/27
PRINTcipher is a recent lightweight block cipher designed by Knudsen et al. Some noteworthy characteristics are a burnt-in key, a key-dependent permutation layer and identical round keys. Independent ...
Algebraic cryptanalysis of the round-reduced and side channel analysis of the full PRINTCipher-48
secret-key cryptography / Algebraic cryptanalysis SAT-solving PRINTCipher MiniSAT CryptoMiniSAT
2012/3/28
In this paper we analyze the recently proposed light-weight block cipher PRINTCipher. Applying algebraic methods and SAT-solving we are able to break 8 rounds of PRINTCipher-48 with only 2 known plain...
Algebraic cryptanalysis of the round-reduced and side channel analysis of the full PRINTCipher-48
Algebraic cryptanalysis SAT-solving PRINTCipher MiniSAT CryptoMiniSAT
2011/6/9
In this paper we analyze the recently proposed light-weight block cipher PRINTCipher. Applying algebraic methods and SAT-solving we are able to break 8 rounds of PRINTCipher-48 with only 2 known plain...
Fault-propagation Pattern Based DFA on SPN Structure Block Ciphers using Bitwise Permutation, with Application to PRESENT and PRINTcipher
Fault-propagation pattern fault-propagation path differential fault analysis bitwise permutation SPN block cipher PRESENT PRINTcipher
2012/3/29
This paper proposes a novel fault-propagation pattern based differential fault analysis method - FPP-DFA, and proves its feasibility on SPN structure block ciphers using bitwise permutation, such as P...
Fault Propagate Pattern Based DFA on SPN Structure Block Ciphers using Bitwise Permutation, with Application to PRESENT and PRINTcipher
fault propagate pattern fault propagate path differential fault analysis bitwise permutation SPN block cipher PRESENT PRINTcipher
2011/2/24
PRESENT and PRINTcipher are two hardware-optimized ultra-lightweight block ciphers presented in CHES 2007 and CHES 2010, which is suitable for RFID tags and IC-Printing, the authors didn’t analyze the...