The post-quantum digital signature scheme CRYSTALS-Dilithium has been recently selected by the NIST for standardization. Implementing CRYSTALSDilithium, and other post-quantum cryptography schemes, on embedded devices raises a new set of challenges, including ones related to performance in terms of speed and memory requirements, but also related to side-channel and fault injection attacks security. In this work, we investigated the latter and describe a differential fault attack on the randomized and deterministic versions of CRYSTALS-Dilithium. Notably, the attack requires a few instructions skips and is able to reduce the MLWE problem that Dilithium is based on to a smaller RLWE problem which can be practically solved with lattice reducti...
Modern cryptographic algorithms such as AES and RSA are effectively used for securing data transmiss...
In this paper, we present the lattice-based signature scheme Dilithium, which is a component of the ...
The impending threat of large scale quantum computers to traditional RSA and ECC-based public-key cr...
In this paper, we extend the applicability of differential fault attacks to lattice-based cryptograp...
We present a set of physical profiled attacks against CRYSTALS-Dilithium that accumulate noisy knowl...
This paper presents a new profiling side-channel attack on CRYSTALSDilithium, the new NIST primary s...
We present a side-channel attack on CRYSTALS-Dilithium, a post-quantum secure digital signature sche...
This paper presents a comprehensive analysis of the verification algorithm of the CRYSTALS-Dilithium...
CRYSTALS-Dilithium has been selected by the NIST as the new standard for post-quantum digital signat...
CRYSTALS-Dilithium has been selected by the NIST as the new stan-dard for post-quantum digital signa...
During the standardisation process of post-quantum cryptography, NIST encourages research on side-ch...
Last year CRYSTALS-Kyber was chosen by NIST as a new, post-quantum secure key encapsulation mechanis...
Cryptosystems based on the learning with errors (LWE) problem are assigned a security level that rel...
Dilithium is a lattice-based digital signature, one of the finalist candidates in the NIST\u27s stan...
The lattice-based CRYSTALS-Dilithium signature scheme has been selected for standardization by the N...
Modern cryptographic algorithms such as AES and RSA are effectively used for securing data transmiss...
In this paper, we present the lattice-based signature scheme Dilithium, which is a component of the ...
The impending threat of large scale quantum computers to traditional RSA and ECC-based public-key cr...
In this paper, we extend the applicability of differential fault attacks to lattice-based cryptograp...
We present a set of physical profiled attacks against CRYSTALS-Dilithium that accumulate noisy knowl...
This paper presents a new profiling side-channel attack on CRYSTALSDilithium, the new NIST primary s...
We present a side-channel attack on CRYSTALS-Dilithium, a post-quantum secure digital signature sche...
This paper presents a comprehensive analysis of the verification algorithm of the CRYSTALS-Dilithium...
CRYSTALS-Dilithium has been selected by the NIST as the new standard for post-quantum digital signat...
CRYSTALS-Dilithium has been selected by the NIST as the new stan-dard for post-quantum digital signa...
During the standardisation process of post-quantum cryptography, NIST encourages research on side-ch...
Last year CRYSTALS-Kyber was chosen by NIST as a new, post-quantum secure key encapsulation mechanis...
Cryptosystems based on the learning with errors (LWE) problem are assigned a security level that rel...
Dilithium is a lattice-based digital signature, one of the finalist candidates in the NIST\u27s stan...
The lattice-based CRYSTALS-Dilithium signature scheme has been selected for standardization by the N...
Modern cryptographic algorithms such as AES and RSA are effectively used for securing data transmiss...
In this paper, we present the lattice-based signature scheme Dilithium, which is a component of the ...
The impending threat of large scale quantum computers to traditional RSA and ECC-based public-key cr...