Novel single-trace ML profiling attacks on NIST 3 round candidate Dilithium
IJ Kim, TH Lee, J Han, BY Sim, DG Han - Cryptology ePrint Archive, 2020 - eprint.iacr.org
IJ Kim, TH Lee, J Han, BY Sim, DG Han
Cryptology ePrint Archive, 2020•eprint.iacr.orgDilithium is a lattice-based digital signature, one of the finalist candidates in the NIST's
standardization process for post-quantum cryptography. In this paper, we propose a first side-
channel attack on the process of signature generation of Dilithium. During the Dilithium
signature generation process, we used NTT encryption single-trace for machine learning-
based profiling attacks. In addition, it is possible to attack masked Dilithium using sparse
multiplication. The proposed method is shown through experiments that all key values can …
standardization process for post-quantum cryptography. In this paper, we propose a first side-
channel attack on the process of signature generation of Dilithium. During the Dilithium
signature generation process, we used NTT encryption single-trace for machine learning-
based profiling attacks. In addition, it is possible to attack masked Dilithium using sparse
multiplication. The proposed method is shown through experiments that all key values can …
Abstract
Dilithium is a lattice-based digital signature, one of the finalist candidates in the NIST's standardization process for post-quantum cryptography. In this paper, we propose a first side-channel attack on the process of signature generation of Dilithium. During the Dilithium signature generation process, we used NTT encryption single-trace for machine learning-based profiling attacks. In addition, it is possible to attack masked Dilithium using sparse multiplication. The proposed method is shown through experiments that all key values can be exposed 100% through a single-trace regardless of the optimization level.
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