计算机科学

计算机科学 ›› 2026, Vol. 53 ›› Issue (3): 453-458.doi: 10.11896/jsjkx.250600176

• 信息安全 • 上一篇    下一篇

基于深度学习的GIFT-128与ASCON算法神经差分区分器研究

苏睿韬, 任炯炯, 陈少真   

  1. 信息工程大学 郑州 450001
  • 收稿日期:2025-06-24 修回日期:2025-10-25 发布日期:2026-03-12
  • 通讯作者: 任炯炯(jiongjiong_fun@163.com)
  • 作者简介:(suruitao01@163.com)
  • 基金资助:
    国家自然科学基金(62206312)

Deep Learning-based Neural Differential Distinguishers for GIFT-128 and ASCON

SU Ruitao, REN Jiongjiong, CHEN Shaozhen   

  1. Information Engineering University, Zhengzhou 450001, China
  • Received:2025-06-24 Revised:2025-10-25 Online:2026-03-12
  • About author:SU Ruitao,born in 2001,postgraduate.His main research interest is analysis of block ciphers.
    REN Jiongjiong,born in 1995,Ph.D.His main research interest is analysis of block ciphers.
  • Supported by:
    National Natural Science Foundation of China(62206312).

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摘要: 差分分析是评估分组密码安全性的关键方法,通过追踪明文差分的传播以区分密码与随机置换。传统分析方法应对复杂算法时存在局限,而深度学习的特征提取优势为密码分析开辟了新路径。为实现分组密码的安全性评估,提出了一种融合传统差分分析与深度学习方法的神经差分区分器构造方法。在数据集构造方面,采用多密文对三元组输入格式,保留差分特征并捕捉跨密文对相关性。网络架构基于卷积神经网络并融合残差收缩网络,构建深度扩张结构及多尺度特征融合机制。在GIFT-128和ASCON-PERMUTATION算法上的实验表明:对于GIFT-128算法,其6轮、7轮区分器的准确率最高可达99.70%和95.47%,分别提升了9.30%和13.09%;在ASCON的4轮分析中,准确率最高达到53.54%。这证明了深度学习方法在密码安全性分析上的有效性。

关键词: 深度学习, 差分分析, 分组密码, 神经区分器, GIFT-128, ASCON

Abstract: As a critical method for block cipher security evaluation,differential cryptanalysis distinguishes ciphers from random permutations by analyzing plaintext difference propagation during encryption.Traditional approaches struggle with complex cryptographic algorithms,while deep learning offers new cryptanalysis perspectives increasingly applied in recent years.To enhance the security evaluation of block ciphers,this paper proposes a neural differential distinguisher construction method that integrates traditional differential analysis with deep learning.For dataset construction,a triplet input format comprising multiple ciphertext pairs is adopted to preserve differential characteristics and capture cross-ciphertext-pair correlations.The network architecture builds upon Convolutional Neural Networks(CNNs) and incorporates residual shrinkage networks to form a deep expansion structure with a multi-scale feature fusion mechanism.Experiments on GIFT-128 and ASCON-PERMUTATION demonstrate significant improvements:For GIFT-128,the highest accuracy of 6-round and 7-round distinguishers reaches 99.70%(an improvement of 9.30%) and 95.47%(an improvement of 13.09%),respectively.For the 4-round analysis of ASCON,the highest accuracy achieves 53.54%.These results validate the effectiveness of the deep learning approach in cryptographic security analysis.

Key words: Deep learning, Differential cryptanalysis, Block cipher, Neutral distinguisher, GIFT-128, ASCON

中图分类号: 

  • TN918
[1]BIHAM E,SHAMIR A.Differential cryptanalysis of DES-like cryptosystems[J].Journal of Cryptology,1991,4:3-72.
[2]LAI X J.Higher order derivatives and differential cryptanalysis[C]//Proceeding of the Symposium on Communication,Coding and Cryptography.Springer,1994:10-13.
[3]BIHAM E,BIRYUKOV A,SHAMIR A.Cryptanalysis of Skipjack reduced to 31 rounds using impossible differentials[C]//Advances in Cryptology—EUROCRYPT’99.Berlin:Springer,1999:12-23.
[4]BIHAM E.New types of cryptanalytic attacks using relatedkeys[J].Journal of Cryptology,1994,7:229-246.
[5]GOHR A.Improving attacks on round-reduced speck32/64using deep learning[C]//Advances in Cryptology-CRYPTO 2019.2019:150-179.
[6]CHEN Y,YU H.A New Neural Distinguisher Model Considering Derived Features from Multiple Ciphertext Pairs[J].The Computer Journal,2023,66(6):1419-1433.
[7]HOU Z,REN J,CHEN S.Improve neural distinguisher forcryptanalysis[EB/OL].https://eprint.iacr.org/2021/1017.
[8]LU J,LIU G,SUN B,et al.Improved(related-key) differential-based neural distinguishers for SIMON and SIMECK block ciphers[J].The Computer Journal,2024,67(2):537-547.
[9]BAO Z,LU J,YAO Y,et al.More insight on deep learning-aided cryptanalysis[C]//Proceedings of the International Conference on the Theory and Application of Cryptology and Information Security.Singapore:Springer,2023:436-467.
[10]SHEN D,SONG Y,LU Y,et al.Neural differential distingui-shers for GIFT-128 and ASCON[J].Journal of Information Secu-rity and Applications,2024,82:103758.
[11]ZHANG L,WANG Z L,WANG B C.Improving Differential-Neural Cryptanalysis[J].IACR Communications in Cryptology,2024,1(3):13.
[12]WANG G,WANG G,SUN S.Investigating and enhancing theneural distinguisher for differential cryptanalysis[J].IEICE Transactions on Information and Systems,2024,107:1016-1028.
[13]SEOK B,LEE C.A novel approach to construct a good dataset for differential-neural cryptanalysis[J].IEEE Transactions on Dependable and Secure Computing,2024,22:246-262.
[14]BANIK S,PANDEY S K,PEYRIN T,et al.GIFT:A smallpresent:Towards reaching the limit of lightweight encryption[C]//Proceedings of Cryptographic Hardware and Embedded Systems.Springer,2017:321-345.
[15]DOBRUNIG C,EICHLSEDER M,MENDEL F,et al.Asconv1.2:lightweight authenticated encryption and hashing[J].Journal of Cryptology,2021,34:1-42.
[16]BENAMIRA A,GERAULT D,PEYRIN T,et al.A DeeperLook at Machine Learning-Based Cryptanalysis[C]//Advances in Cryptology-EUROCRYPT 2021.Cham:Springer,2021:436-467.
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