TWINE

TWINE: A lightweight block cipher for multiple platforms. This paper presents a 64-bit lightweight block cipher TWINE supporting 80 and 128-bit keys. It enables quite small hardware implementation similar to the previous proposals, yet enables efficient implementations on embedded software. Moreover, it allows a compact implementation of unified encryption and decryption. This characteristic mainly originates from the use of generalized Feistel with many subblocks combined with a recent improvement on the diffusion layer.


References in zbMATH (referenced in 36 articles , 1 standard article )

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  1. Chen, Shiyao; Fan, Yanhong; Sun, Ling; Fu, Yong; Zhou, Haibo; Li, Yongqing; Wang, Meiqin; Wang, Weijia; Guo, Chun: SAND: an AND-RX Feistel lightweight block cipher supporting S-box-based security evaluations (2022)
  2. Chakraborti, Avik; Iwata, Tetsu; Minematsu, Kazuhiko; Nandi, Mridul: Blockcipher-based authenticated encryption: how small can we go? (2020)
  3. Dey, Sabyasachi; Roy, Tapabrata; Sarkar, Santanu: Some results on Fruit (2019)
  4. Yang, Dong; Qi, Wen-Feng; Chen, Hua-Jin: Provable security against impossible differential and zero correlation linear cryptanalysis of some Feistel structures (2019)
  5. Koo, Bonwook; Roh, Dongyoung; Kim, Hyeonjin; Jung, Younghoon; Lee, Dong-Geon; Kwon, Daesung: CHAM: a family of lightweight block ciphers for resource-constrained devices (2018)
  6. Dubrova, Elena; Hell, Martin: Espresso: a stream cipher for 5G wireless communication systems (2017)
  7. Hao, Yonglin; Meier, Willi: Truncated differential based known-key attacks on round-reduced SIMON (2017)
  8. Sasaki, Yu; Todo, Yosuke: New impossible differential search tool from design and cryptanalysis aspects. Revealing structural properties of several ciphers (2017)
  9. Banik, Subhadeep; Bogdanov, Andrey; Regazzoni, Francesco: Exploring energy efficiency of lightweight block ciphers (2016)
  10. Banik, Subhadeep; Bogdanov, Andrey; Regazzoni, Francesco: Atomic-AES: a compact implementation of the AES encryption/decryption core (2016)
  11. Beierle, Christof; Jean, Jérémy; Kölbl, Stefan; Leander, Gregor; Moradi, Amir; Peyrin, Thomas; Sasaki, Yu; Sasdrich, Pascal; Sim, Siang Meng: The (\mathttSKINNY) family of block ciphers and its low-latency variant (\mathttMANTIS) (2016)
  12. Biryukov, Alex; Perrin, Léo; Udovenko, Aleksei: Reverse-engineering the S-Bbox of Streebog, Kuznyechik and Stribobr1 (2016)
  13. Canteaut, Anne; Duval, Sébastien; Leurent, Gaëtan: Construction of lightweight S-boxes using Feistel and MISTY structures (2016)
  14. Derbez, Patrick: Note on impossible differential attacks (2016)
  15. Derbez, Patrick; Fouque, Pierre-Alain: Automatic search of meet-in-the-middle and impossible differential attacks (2016)
  16. Esgin, Muhammed F.; Kara, Orhun: Practical cryptanalysis of full Sprout with TMD tradeoff attacks (2016)
  17. Lin, Li; Wu, Wenling; Zheng, Yafei: Automatic search for key-bridging technique: applications to LBlock and TWINE (2016)
  18. Tolba, Mohamed; Youssef, Amr M.: Generalized MitM attacks on full TWINE (2016)
  19. Wang, Yanfeng; Wu, Wenling: New criterion for diffusion property and applications to improved GFS and EGFN (2016)
  20. Xiang, Zejun; Zhang, Wentao; Bao, Zhenzhen; Lin, Dongdai: Applying MILP method to searching integral distinguishers based on division property for 6 lightweight block ciphers (2016)

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