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MALINA, L. RICCI, S. DOBIÁŠ, P. JEDLIČKA, P. HAJNÝ, J. CHOO, K.
Original Title
On the Efficiency and Security of Quantum-resistant Key Establishment Mechanisms on FPGA Platforms
Type
conference paper
Language
English
Original Abstract
The importance of designing efficient and secure post-quantum cryptographic algorithms is reinforced in the recent National Institute of Standards and Technology (NIST)’s Post-Quantum Cryptography (PQC) competitions. Seeking to complement existing studies that evaluate the performance of various PQC algorithms, we explore current hardware implementations of third-round finalist key-establishment algorithms (i.e., Kyber, McEliece, NTRU, and SABER) and the five alternate algorithms (i.e., BIKE, FrodoKEM, HQC, NTRU Prime, and SIKE) on Field Programmable Gate Array (FPGA) platforms. Further, we present our pure-VHDL implementation of Kyber and compare it with the hardware implementations of the NIST finalists. Our design offers one universal Kyber component that can operate in 6 different modes. The evaluation findings show that our pure-VHDL Kyber provides less latency than current VHDL-based implementations.
Keywords
FPGA; Hardware Implementation; Key Establishment; Post-quantum Cryptography; Security; VHDL
Authors
MALINA, L.; RICCI, S.; DOBIÁŠ, P.; JEDLIČKA, P.; HAJNÝ, J.; CHOO, K.
Released
11. 7. 2022
ISBN
978-989-758-590-6
Book
19th International Conference on Security and Cryptography (SECRYPT 2022)
Pages from
605
Pages to
613
Pages count
9
BibTex
@inproceedings{BUT178575, author="Lukáš {Malina} and Sara {Ricci} and Patrik {Dobiáš} and Petr {Jedlička} and Jan {Hajný} and Kim-Kwang Raymond {Choo}", title="On the Efficiency and Security of Quantum-resistant Key Establishment Mechanisms on FPGA Platforms", booktitle="19th International Conference on Security and Cryptography (SECRYPT 2022)", year="2022", pages="605--613", doi="10.5220/0011294200003283", isbn="978-989-758-590-6" }