后量子数字签名方案crystals - diliium在可重构硬件上的加速

2022 32nd International Conference on Field-Programmable Logic and Applications (FPL) Pub Date : 2022-08-01 DOI:10.1109/FPL57034.2022.00079

Donal Campbell, C. Rafferty, A. Khalid, Máire O’Neill

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引用次数: 1

摘要

本研究探讨了在可重构硬件上实现CRYSTALS-Dilithium后量子数字签名方案的高效架构，包括速度、内存使用、功耗和资源利用率。后量子数字签名方案涉及大量的计算工作，使高效的硬件加速器成为未来方案采用的重要贡献者。这是正在进行的工作，包括为操作分析建立一个全面的测试环境，以及研究使用新的体系结构来实现最佳性能。

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Acceleration of Post Quantum Digital Signature Scheme CRYSTALS-Dilithium on Reconfigurable Hardware

This research investigates efficient architectures for the implementation of the CRYSTALS-Dilithium post-quantum digital signature scheme on reconfigurable hardware, in terms of speed, memory usage, power consumption and resource utilisation. Post quantum digital signature schemes involve a significant computational effort, making efficient hardware accelerators an important contributor to future adoption of schemes. This is work in progress, comprising the establishment of a comprehensive test environment for operational profiling, and the investigation of the use of novel architectures to achieve optimal performance.

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2022 32nd International Conference on Field-Programmable Logic and Applications (FPL)

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