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Main Authors: Xie, Huiqin, Xia, Qiqing, Wang, Ke, Li, Yanjun, Yang, Li
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.10056
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author Xie, Huiqin
Xia, Qiqing
Wang, Ke
Li, Yanjun
Yang, Li
author_facet Xie, Huiqin
Xia, Qiqing
Wang, Ke
Li, Yanjun
Yang, Li
contents Due to the superiority of quantum computing, traditional cryptography is facing severe threat. This makes the security evaluation of cryptographic systems in quantum attack models significant and urgent. For symmetric ciphers, the security analysis heavily relies on cyptanalytic tools. Thus exploring the use of quantum algorithms to traditional cyptanalytic tools has drawn a lot of attention. In this study, we utilize quantum algorithms to improve impossible differential attack, and design two quantum automatic tools for searching impossible differentials. The proposed quantum algorithms exploit the idea of miss-in-the-middle and the properties of truncated differentials. We rigorously prove their validity and calculate the quantum resources required to implement them. Compared to existing classical automatic cryptanalysis, the quantum tools proposed have the advantage of accurately characterizing S-boxes while only requiring polynomial complexity, and can take into consideration the impact of the key schedules in single-key model.
format Preprint
id arxiv_https___arxiv_org_abs_2407_10056
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Quantum Automatic Tool for Finding Impossible Differentials
Xie, Huiqin
Xia, Qiqing
Wang, Ke
Li, Yanjun
Yang, Li
Quantum Physics
Due to the superiority of quantum computing, traditional cryptography is facing severe threat. This makes the security evaluation of cryptographic systems in quantum attack models significant and urgent. For symmetric ciphers, the security analysis heavily relies on cyptanalytic tools. Thus exploring the use of quantum algorithms to traditional cyptanalytic tools has drawn a lot of attention. In this study, we utilize quantum algorithms to improve impossible differential attack, and design two quantum automatic tools for searching impossible differentials. The proposed quantum algorithms exploit the idea of miss-in-the-middle and the properties of truncated differentials. We rigorously prove their validity and calculate the quantum resources required to implement them. Compared to existing classical automatic cryptanalysis, the quantum tools proposed have the advantage of accurately characterizing S-boxes while only requiring polynomial complexity, and can take into consideration the impact of the key schedules in single-key model.
title A Quantum Automatic Tool for Finding Impossible Differentials
topic Quantum Physics
url https://arxiv.org/abs/2407.10056