None of the existing rank estimation algorithms can scale to large cryptographic keys, such as 4096-bit (512 bytes) RSA keys. In this paper, we present the first solution to estimate the guessing entropy of arbitrarily large keys, based on mathematical bounds, resulting in the fastest and most scalable security evaluation tool to date. Our bounds can be computed within a fraction of a second, with no memory overhead, and provide a margin of only a few bits for a full 128-bit AES key
Guessing entropy is a common metric in side-channel analysis, and it represents the average key rank...
Key rank estimation provides a measure of the effort that the attacker hasto spend bruteforcing the ...
Methods for enumerating cryptographic keys based on partial information obtained on key bytes are im...
Security evaluations for full cryptographic keys is a very important research topic since the past d...
A Eurocrypt 2013 paper "Security evaluations beyond computing power: How to analyze side-channel att...
Current key sizes for symmetric cryptography are usually required to be at least 80-bit long for sho...
2Direction Générale de l’Armement–Mâıtrise de l’information, France. Abstract. Current key sizes ...
Abstract. Current key sizes for symmetric cryptography are usually re-quired to be at least 80-bit l...
Key rank estimation provides a measure of the effort that the attacker has to spend bruteforcing the...
Present key sizes for symmetric cryptography are usually required to be at least 80-bit long for sho...
The bounds presented at CHES 2017 based on Massey’s guessing entropy represent the most scalable sid...
Rank estimation algorithms allow analyzing the computational security of cryptographic keys for whic...
Part 8: Sidechannel AnalysisInternational audienceIt has always been the concern of side channel ana...
Guessing entropy (GE) is a widely adopted metric that measures the average computational cost needed...
Side channels provide additional information to skilled adversaries that reduce the effort to determ...
Guessing entropy is a common metric in side-channel analysis, and it represents the average key rank...
Key rank estimation provides a measure of the effort that the attacker hasto spend bruteforcing the ...
Methods for enumerating cryptographic keys based on partial information obtained on key bytes are im...
Security evaluations for full cryptographic keys is a very important research topic since the past d...
A Eurocrypt 2013 paper "Security evaluations beyond computing power: How to analyze side-channel att...
Current key sizes for symmetric cryptography are usually required to be at least 80-bit long for sho...
2Direction Générale de l’Armement–Mâıtrise de l’information, France. Abstract. Current key sizes ...
Abstract. Current key sizes for symmetric cryptography are usually re-quired to be at least 80-bit l...
Key rank estimation provides a measure of the effort that the attacker has to spend bruteforcing the...
Present key sizes for symmetric cryptography are usually required to be at least 80-bit long for sho...
The bounds presented at CHES 2017 based on Massey’s guessing entropy represent the most scalable sid...
Rank estimation algorithms allow analyzing the computational security of cryptographic keys for whic...
Part 8: Sidechannel AnalysisInternational audienceIt has always been the concern of side channel ana...
Guessing entropy (GE) is a widely adopted metric that measures the average computational cost needed...
Side channels provide additional information to skilled adversaries that reduce the effort to determ...
Guessing entropy is a common metric in side-channel analysis, and it represents the average key rank...
Key rank estimation provides a measure of the effort that the attacker hasto spend bruteforcing the ...
Methods for enumerating cryptographic keys based on partial information obtained on key bytes are im...