Improbable differential cryptanalysis is a recent attack technique that generalizes impossible differential cryptanalysis for block ciphers. In this paper, we give the most effective attacks known to date on the CLEFIA cipher using improbable differential cryptanalysis. Moreover, we provide a general data complexity calculation that can guide the cryptanalyst to choose the optimal improbable differential. On a related account, we consider the probability calculations used for improbable differential cryptanalysis. Recently, some examples were given where certain assumptions in these calculations do not hold. Although such cases exist, especially on small toy ciphers with insufficient diffusion, we provide experimental evidence which support...
Abstract—Differential Fault Analysis is a powerful cryptanalytic tool to reveal secret keys of crypt...
Abstract. Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysi...
In this paper we propose a new differential fault analysis (DFA) on CLEFIA of 128-bit key. The propo...
Improbable differential cryptanalysis is a recent attack technique that generalizes impossible diffe...
In this paper we present a new statistical cryptanalytic technique that we call improbable different...
We present a new statistical cryptanalytic technique that we call improbable differential cryptanaly...
Abstract. This paper reports impossible differential cryptanalysis on the 128-bit block cipher CLEFI...
Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysis against ...
Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysis against ...
Abstract. So far, low probability differentials for the key schedule of block ciphers have been used...
So far, low probability differentials for the key schedule of block ciphers have been used as a stra...
So far, low probability differentials for the key schedule of block ciphers have been used as a stra...
Abstract. Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysi...
International audienceThis paper introduces new techniques and correct complexity analyses for impos...
Abstract. CLEFIA is a 128-bit block cipher proposed by Sony Corpo-ration in 2007. Our paper introduc...
Abstract—Differential Fault Analysis is a powerful cryptanalytic tool to reveal secret keys of crypt...
Abstract. Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysi...
In this paper we propose a new differential fault analysis (DFA) on CLEFIA of 128-bit key. The propo...
Improbable differential cryptanalysis is a recent attack technique that generalizes impossible diffe...
In this paper we present a new statistical cryptanalytic technique that we call improbable different...
We present a new statistical cryptanalytic technique that we call improbable differential cryptanaly...
Abstract. This paper reports impossible differential cryptanalysis on the 128-bit block cipher CLEFI...
Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysis against ...
Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysis against ...
Abstract. So far, low probability differentials for the key schedule of block ciphers have been used...
So far, low probability differentials for the key schedule of block ciphers have been used as a stra...
So far, low probability differentials for the key schedule of block ciphers have been used as a stra...
Abstract. Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysi...
International audienceThis paper introduces new techniques and correct complexity analyses for impos...
Abstract. CLEFIA is a 128-bit block cipher proposed by Sony Corpo-ration in 2007. Our paper introduc...
Abstract—Differential Fault Analysis is a powerful cryptanalytic tool to reveal secret keys of crypt...
Abstract. Impossible differential cryptanalysis has shown to be a very powerful form of cryptanalysi...
In this paper we propose a new differential fault analysis (DFA) on CLEFIA of 128-bit key. The propo...