PRESENT is a new ultra lightweight block cipher algorithm, developed by the Orange Labs (France), Ruhr University Bochum (Germany) and the Technical University of Denmark. PRESENT is designed by Andrey Bogdanov, Lars R. Knudsen, Gregor Leander, Christof Paar, Axel Poschmann, Matthew J. B. Robshaw, Yannick Seurin, and C. Vikkelsoe. It is one of the most compact encryption methods ever designed and is 2.5 times smaller than AES (Advanced Encryption Standard).[1] The block size is 64 bits and the key size can be 80 bit or 128 bit. It is intended to be used in situations where low-power consumption and high chip efficiency is desired. The International Organization for Standardization and the International Electrotechnical Commission included PRESENT in the new international standard for lightweight cryptographic methods

References in zbMATH (referenced in 179 articles , 1 standard article )

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  1. Guilley, Sylvain; Heuser, Annelie; Rioul, Olivier: A key to success. Success exponents for side-channel distinguishers (2015)
  2. Gulcan, Ege; Aysu, Aydin; Schaumont, Patrick: BitCryptor: bit-serialized flexible crypto engine for lightweight applications (2015)
  3. Karakoç, F.; Demirci, H.; Harmancı, A. E.: AKF: a key alternating Feistel scheme for lightweight cipher designs (2015)
  4. Lallemand, Virginie; Naya-Plasencia, María: Cryptanalysis of KLEIN (2015)
  5. Liu, Guo-Qiang; Jin, Chen-Hui: Differential cryptanalysis of PRESENT-like cipher (2015)
  6. Todo, Yosuke: Structural evaluation by generalized integral property (2015)
  7. Wu, Wenling; Zhang, Lei; Yu, Xiaoli: The DBlock family of block ciphers (2015)
  8. Abed, Farzaneh; Forler, Christian; List, Eik; Lucks, Stefan; Wenzel, Jakob: A framework for automated independent-biclique cryptanalysis (2014)
  9. Benadjila, Ryad; Guo, Jian; Lomné, Victor; Peyrin, Thomas: Implementing lightweight block ciphers on \textttx86 architectures (2014)
  10. Bulygin, Stanislav; Walter, Michael; Buchmann, Johannes: Full analysis of \textscPRINTcipherwith respect to invariant subspace attack: efficient key recovery and countermeasures (2014)
  11. Doröz, Yarkın; Shahverdi, Aria; Eisenbarth, Thomas; Sunar, Berk: Toward practical homomorphic evaluation of block ciphers using prince (2014) ioport
  12. Emami, Sareh; Ling, San; Nikolić, Ivica; Pieprzyk, Josef; Wang, Huaxiong: The resistance of PRESENT-80 against related-key differential attacks (2014)
  13. Gong, Zheng; Hartel, Pieter; Nikova, Svetla; Tang, Shao-Hua; Zhu, Bo: TuLP: a family of lightweight message authentication codes for body sensor networks (2014) ioport
  14. Huang, Jialin; Lai, Xuejia: What is the effective key length for a block cipher: an attack on every practical block cipher (2014)
  15. Odelu, Vanga; Das, Ashok Kumar; Goswami, Adrijit: A secure effective key management scheme for dynamic access control in a large leaf class hierarchy (2014)
  16. Sun, Siwei; Hu, Lei; Wang, Peng; Qiao, Kexin; Ma, Xiaoshuang; Song, Ling: Automatic security evaluation and (related-key) differential characteristic search: application to SIMON, PRESENT, Lblock, DES(L) and other bit-oriented block ciphers (2014)
  17. Tezcan, Cihangir: Improbable differential attacks on \textttPRESENTusing undisturbed bits (2014)
  18. Wen, Long; Wang, Meiqin; Bogdanov, Andrey; Chen, Huaifeng: Multidimensional zero-correlation attacks on lightweight block cipher HIGHT: improved cryptanalysis of an ISO standard (2014)
  19. Wen, Long; Wang, Mei-Qin; Zhao, Jing-Yuan: Related-key impossible differential attack on reduced-round LBlock (2014) ioport
  20. Zajac, Pavol; Jókay, Matúš: Multiplicative complexity of bijective (4\times4) (S)-boxes (2014)