Differential power analysis (DPA) is a side-channel attack in which an adversary retrieves cryptographic material by measuring and analyzing the power consumption of the device on which the cryptographic algorithm under attack executes. An effective countermeasure against DPA is to mask secrets by probabilistically encoding them over a set of shares, and to run masked algorithms that compute on these encodings. Masked algorithms are often expected to provide, at least, a certain level of probing security. Leveraging the deep connections between probabilistic information flow and probing security, we develop a precise, scalable, and fully automated methodology to verify the probing security of masked algorithms, and generate them from unprot...
Real-world software implementations of cryptographic algorithms need to be able to resist various ki...
Abstract. In a recent work, Mangard et al. showed that under certain assumptions, the (so-called) st...
Differential Power Analysis (DPA) reveals the secret key from the cryptographic device by side chann...
Differential power analysis (DPA) is a side-channel attack in which an adversary retrieves cryptogra...
Abstract. A popular effective countermeasure to protect block cipher implementations against differe...
Power analysis has shown to be successful in breaking symmetric cryptographic algorithms implemented...
Differential Power Analysis (DPA) attacks find a statistical correlation between the power consumpti...
Abstract. We demonstrate that masking a block cipher implementation does not sufficiently improve it...
At CHES 2016, Bos et al. introduced differential computational analysis (DCA) as an attack on white-...
We demonstrate that masking a block cipher implementation does not sufficiently improve its security...
Since Differential Power Analysis (DPA) on DES in smart-cards was firstly published by Kocher et al....
Side-channel attacks exploit the fact that the implementations of cryptographic algorithms leak info...
Embedded devices are used pervasively in a wide range of applications some of which require cryptogr...
Higher-order differential power analysis attacks are a serious threat for cryptographic hardware imp...
Real-world software implementations of cryptographic algorithms need to be able to resist various ki...
Abstract. In a recent work, Mangard et al. showed that under certain assumptions, the (so-called) st...
Differential Power Analysis (DPA) reveals the secret key from the cryptographic device by side chann...
Differential power analysis (DPA) is a side-channel attack in which an adversary retrieves cryptogra...
Abstract. A popular effective countermeasure to protect block cipher implementations against differe...
Power analysis has shown to be successful in breaking symmetric cryptographic algorithms implemented...
Differential Power Analysis (DPA) attacks find a statistical correlation between the power consumpti...
Abstract. We demonstrate that masking a block cipher implementation does not sufficiently improve it...
At CHES 2016, Bos et al. introduced differential computational analysis (DCA) as an attack on white-...
We demonstrate that masking a block cipher implementation does not sufficiently improve its security...
Since Differential Power Analysis (DPA) on DES in smart-cards was firstly published by Kocher et al....
Side-channel attacks exploit the fact that the implementations of cryptographic algorithms leak info...
Embedded devices are used pervasively in a wide range of applications some of which require cryptogr...
Higher-order differential power analysis attacks are a serious threat for cryptographic hardware imp...
Real-world software implementations of cryptographic algorithms need to be able to resist various ki...
Abstract. In a recent work, Mangard et al. showed that under certain assumptions, the (so-called) st...
Differential Power Analysis (DPA) reveals the secret key from the cryptographic device by side chann...