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CRYSTALS-Dilithium: A Lattice-Based Digital Signature Scheme [PDF]
Transactions on Cryptographic Hardware and Embedded Systems, 2018 In this paper, we present the lattice-based signature scheme Dilithium, which is a component of the CRYSTALS (Cryptographic Suite for Algebraic Lattices) suite that was submitted to NIST’s call for post-quantum cryptographic standards.
Léo Ducas +6 more
doaj +8 more sources
CDBS: blind signature scheme based on CRYSTALS-Dilithium algorithm [PDF]
Tongxin xuebaoIn order to solve the inadequacy of traditional blind signature schemes in resisting quantum computing attacks during interactions between users, signers, and verifiers was addressed, a novel quantum-resistant blind signature scheme named CDBS was ...
YANG Yatao +4 more
doaj +6 more sources
From MLWE to RLWE: A Differential Fault Attack on Randomized & Deterministic Dilithium [PDF]
Transactions on Cryptographic Hardware and Embedded Systems, 2023 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 ...
Mohamed ElGhamrawy +7 more
doaj +3 more sources
Optimized Vectorization Implementation of CRYSTALS-Dilithium
IEEE Transactions on Dependable and Secure Computing, 2023 CRYSTALS-Dilithium is a lattice-based signature scheme to be standardized by NIST as the primary post-quantum signature algorithm. In this work, we make a thorough study of optimizing the implementations of Dilithium by utilizing the Advanced Vector ...
Song, Zhenyu +4 more
core +2 more sources
Implementing CRYSTAL-Dilithium on FRDM-K64 [PDF]
2021 IEEE 12th Annual Ubiquitous Computing, Electronics & Mobile Communication Conference (UEMCON), 2021 This document presents the performance of the lattice-based signature scheme Dilithium for FRDM-K64 ARM Cortex-M4. Dilithium is a recent post-quantum cryptographic scheme, such as a candidate in the third round of the NIST.
Ortega-Luna, Katya D.
core +2 more sources
Syntheses and crystal structures of three novel oxalate coordination compounds: Rb2Co(C2O4)2·4H2O, Rb2CoCl2(C2O4) and K2Li2Cu(C2O4)3·2H2O [PDF]
Acta Crystallographica Section E: Crystallographic Communications, 2023 Single crystals of three novel transition-metal oxalates, dirubidium diaquadioxalatocobalt(II) dihydrate or dirubidium cobalt(II) bis(oxalate) tetrahydrate, Rb2[Co(C2O4)2(H2O)2]·2H2O, (I), catena-poly[dirubidium [[dichloridocobalt(II)]-μ-oxalato]] or ...
Rebecca Clulow, Philip Lightfoot
doaj +2 more sources
The Mathematical Foundation of Post-Quantum Cryptography [PDF]
ResearchIn 1994, P. Shor discovered quantum algorithms that can break both the RSA cryptosystem and the ElGamal cryptosystem. In 2007, a Canadian company D-Wave demonstrated the first quantum computer.
Chuanming Zong
doaj +2 more sources
Length–Weight Distribution of Non-Zero Elements in Randomized Bit Sequences [PDF]
SensorsRandomness plays an important role in data communication as well as in cybersecurity. In the simulation of communication systems, randomized bit sequences are often used to model a digital source information stream. Cryptographic outputs should look more
Christoph Lange +3 more
doaj +2 more sources
A Compact and High-Performance Hardware Architecture for CRYSTALS-Dilithium
Transactions on Cryptographic Hardware and Embedded Systems, 2021 The lattice-based CRYSTALS-Dilithium scheme is one of the three thirdround digital signature finalists in the National Institute of Standards and Technology Post-Quantum Cryptography Standardization Process.
Cankun Zhao +9 more
doaj +3 more sources
Implementing CRYSTALS-Dilithium Signature Scheme on FPGAs [PDF]
Proceedings of the 16th International Conference on Availability, Reliability and Security, 2021 In July 2020, the lattice-based CRYSTALS-Dilithium digital signature scheme has been chosen as one of the three third-round finalists in the post-quantum cryptography standardization process by the National Institute of Standards and Technology (NIST ...
David Smekal +6 more
core +3 more sources