Deep Learning based Side-Channel Attacks (DL-SCA) are considered as fundamental threats against secure cryptographic implementations. Side-channel attacks aim to recover a secret key using the least number of leakage traces. In DL-SCA, this often translates in having a model with the highest possible accuracy. Increasing an attack’s accuracy is particularly important when an attacker targets public-key cryptographic implementations where the recovery of each secret key bits is directly related to the model’s accuracy. Commonly used in the deep learning field, ensemble models are a well suited method that combine the predictions of multiple models to increase the ensemble accuracy by reducing the correlation between their errors. Linked to t...
To mitigate side-channel attacks, real-world implementations of public-key cryptosystems adopt state...
Recently introduced federated learning is an attractive framework for the distributed training of de...
International audienceThe side-channel community recently investigated a new approach, based on deep...
Deep Learning based Side-Channel Attacks (DL-SCA) are considered as fundamental threats against secu...
The adoption of deep neural networks for profiled side-channel attacks provides powerful options for...
When encryption algorithms are implemented at the physical level, information tends to leak through ...
Recently, several studies have been published on the application of deep learning to enhance Side-Ch...
In recent years, deep learning-based side-channel analysis (DLSCA) has become an active research top...
Side-channel attacks (SCA) aim to extract a secret cryptographic key from a device, based on uninten...
International audienceThe use of deep learning techniques to perform side-channel analysis attracted...
Deep learning-based side channel attacks are burgeoning due to their better efficiency and performan...
Since Kocher (CRYPTO’96) proposed timing attack, side channel analysis (SCA) has shown great potenti...
To mitigate side-channel attacks, real-world implementations of public-key cryptosystems adopt state...
Recently introduced federated learning is an attractive framework for the distributed training of de...
International audienceThe side-channel community recently investigated a new approach, based on deep...
Deep Learning based Side-Channel Attacks (DL-SCA) are considered as fundamental threats against secu...
The adoption of deep neural networks for profiled side-channel attacks provides powerful options for...
When encryption algorithms are implemented at the physical level, information tends to leak through ...
Recently, several studies have been published on the application of deep learning to enhance Side-Ch...
In recent years, deep learning-based side-channel analysis (DLSCA) has become an active research top...
Side-channel attacks (SCA) aim to extract a secret cryptographic key from a device, based on uninten...
International audienceThe use of deep learning techniques to perform side-channel analysis attracted...
Deep learning-based side channel attacks are burgeoning due to their better efficiency and performan...
Since Kocher (CRYPTO’96) proposed timing attack, side channel analysis (SCA) has shown great potenti...
To mitigate side-channel attacks, real-world implementations of public-key cryptosystems adopt state...
Recently introduced federated learning is an attractive framework for the distributed training of de...
International audienceThe side-channel community recently investigated a new approach, based on deep...