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SPHINCS+ post-quantum digital signature scheme with Streebog hash function

arXiv: Cryptography and Security Pub Date : 2020-06-29 DOI:10.1063/5.0011441
E. Kiktenko, A. Bulychev, P. A. Karagodin, N. Pozhar, M. Anufriev, A. Fedorov
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引用次数: 1

Abstract

Many commonly used public key cryptosystems will become insecure once a scalable quantum computer is built. New cryptographic schemes that can guarantee protection against attacks with quantum computers, so-called post-quantum algorithms, have emerged in recent decades. One of the most promising candidates for a post-quantum signature scheme is SPHINCS$^+$, which is based on cryptographic hash functions. In this contribution, we analyze the use of the new Russian standardized hash function, known as Streebog, for the implementation of the SPHINCS$^+$ signature scheme. We provide a performance comparison with SHA-256-based instantiation and give benchmarks for various sets of parameters.
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SPHINCS+后量子数字签名方案与Streebog哈希函数
一旦可扩展量子计算机建成,许多常用的公钥密码系统将变得不安全。近几十年来出现了新的加密方案,可以保证免受量子计算机的攻击,即所谓的后量子算法。后量子签名方案最有希望的候选方案之一是SPHINCS$^+$,它基于加密散列函数。在这篇文章中,我们分析了用于实现SPHINCS$^+$签名方案的新的俄罗斯标准化哈希函数(称为Streebog)的使用。我们提供了与基于sha -256的实例化的性能比较,并给出了各种参数集的基准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
arXiv: Cryptography and Security
arXiv: Cryptography and Security
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