1. Efficient Algorithm Level Error Detection for Number-Theoretic Transform Assessed on FPGAs
- Author
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Ahmadi, Kasra, Aghapour, Saeed, Kermani, Mehran Mozaffari, and Azarderakhsh, Reza
- Subjects
Computer Science - Cryptography and Security - Abstract
Polynomial multiplication stands out as a highly demanding arithmetic process in the development of post-quantum cryptosystems. The importance of number-theoretic transform (NTT) extends beyond post-quantum cryptosystems, proving valuable in enhancing existing security protocols such as digital signature schemes and hash functions. Due to the potential for errors to significantly disrupt the operation of secure, cryptographically-protected systems, compromising data integrity, and safeguarding against side-channel attacks initiated through faults it is essential to incorporate mitigating error detection schemes. This paper introduces algorithm level fault detection schemes in NTT multiplication, representing a significant enhancement compared to previous research. We evaluate this through the simulation of a fault model, ensuring that the conducted assessments accurately mirror the obtained results. Consequently, we attain a notably comprehensive coverage of errors. Finally, we assess the performance of our efficient error detection scheme on FPGAs to showcase its implementation and resource requirements. Through implementation of our error detection approach on Xilinx/AMD Zynq Ultrascale+ and Artix-7, we achieve a comparable throughput with just a 9% increase in area and 13% increase in latency compared to the original hardware implementations., Comment: 5 Pages, 4 Figures, and 3 Tables
- Published
- 2024