Paper 2022/469
Efficient ASIC Architectures for Low Latency Niederreiter Decryption
Daniel Fallnich, Shutao Zhang, and Tobias Gemmeke
Abstract
Post-quantum cryptography addresses the increasing threat that quantum computing poses to modern communication systems. Among the available "quantum-resistant" systems, the Niederreiter cryptosystem is positioned as a conservative choice with strong security guarantees. As a code-based cryptosystem, the Niederreiter system enables high performance operations and is thus ideally suited for applications such as the acceleration of server workloads. However, until now, no ASIC architecture is available for low latency computation of Niederreiter operations. Therefore, the present work targets the design, implementation and optimization of tailored archi- tectures for low latency Niederreiter decryption. Two architectures utilizing different decoding algorithms are proposed and implemented using a 22nm FDSOI CMOS technology node. One of these optimized architectures improves the decryption latency by 27% compared to a state-of-the-art reference and requires at the same time only 25% of the area.
Metadata
- Available format(s)
-
PDF
- Category
- Implementation
- Publication info
- Preprint. MINOR revision.
- Keywords
- Application-Specific ArchitecturePost-Quantum CryptographyNiederreiter CryptosystemHardware Implementation
- Contact author(s)
-
fallnich @ ibm com
zhang @ ids rwth-aachen de
gemmeke @ ids rwth-aachen de - History
- 2022-04-22: received
- Short URL
- https://ia.cr/2022/469
- License
-
CC BY
BibTeX
@misc{cryptoeprint:2022/469,
author = {Daniel Fallnich and Shutao Zhang and Tobias Gemmeke},
title = {Efficient {ASIC} Architectures for Low Latency Niederreiter Decryption},
howpublished = {Cryptology {ePrint} Archive, Paper 2022/469},
year = {2022},
url = {https://eprint.iacr.org/2022/469}
}
