| 1 | Beaulieu, Ray, Douglas Shors, Jason Smith, Stefan Treatman-Clark, Bryan Weeks, and Louis Wingers. "The SIMON and SPECK Block Ciphers on AVR 8-bit Microcontrollers.", IACR ePrint. |
| 2 | Beaulieu, Ray, Douglas Shors, Jason Smith, Stefan Treatman-Clark, Bryan Weeks, and Louis Wingers. "The SIMON and SPECK Families of Lightweight Block Ciphers." IACR Cryptology ePrint Archive 2013 (2013): 404. |
| 3 | Bos, Joppe W., Dag Arne Osvik, and Deian Stefan. "Fast Implementations of AES on Various Platforms." IACR Cryptology ePrint Archive 2009 (2009): 501. |
| 4 | AVR-Crypto-Lib, Available at https://www.das-l abor.org/wiki/AVR-Crypto-Lib |
| 5 | Papagiannopoulos, Konstantinos, and Aram Verstegen. "Speed and size-optimized implementations of the PRESENT cipher for tiny AVR devices." In Radio Frequency Identification, pp. 161-175. Springer Berlin Heidelberg, 2013. |
| 6 | Eisenbarth, Thomas, Sandeep Kumar, Christof Paar, Axel Poschmann, and Leif Uhsadel. "A survey of lightweight-cryptography implementations." IEEE Design & Test of Computers 24, no. 6 (2007): 522-533. DOI |
| 7 | Rembrand van Lakwijk, "Comparing Performance of Software CLEFIA to Established Block Ciphers on 8-bit Devices," 15th Twente Student Conference on IT. |
| 8 | Aria Shahverdi, Cong Chen, and Thomas Eisenbarth, "AVRprince - An Efficient Implementation of PRINCE for 8-bit Microprocessors" |
| 9 | Eisenbarth, Thomas, Zheng Gong, Tim Guneysu, Stefan Heyse, Sebastiaan Indesteege, Stephanie Kerckhof, Francois Koeune et al. "Compact implementation and performance evaluation of block ciphers in ATtiny devices." In Progress in Cryptology-AFRICACRYPT 2012, pp. 172-187. Springer Berlin Heidelberg, 2012. |
| 10 | mCrypton 결과, Available at http://perso.uclouva in.be/fstandae/lightweight_ciphers/ |
| 11 | Hong, Deukjo, Jung-Keun Lee, Dong-Chan Kim, Daesung Kwon, Kwon Ho Ryu, and Dong-Geon Lee. "LEA: A 128-bit block cipher for fast encryption on common processors." In Information Security Applications, pp. 3-27. Springer International Publishing, 2014. |
| 12 | Rivest, Ronald L., M. J. B. Robshaw, Ray Sidney, and Yiqun Lisa Yin. "The RC6TM block cipher." In First Advanced Encryption Standard (AES) Conference. 1998. |
| 13 | Bogdanov, Andrey, Lars R. Knudsen, Gregor Leander, Christof Paar, Axel Poschmann, Matthew JB Robshaw, Yannick Seurin, and Charlotte Vikkelsoe. PRESENT: An ultra-lightweight block cipher. Springer Berlin Heidelberg, 2007. |
| 14 | Daemen, Joan, and Vincent Rijmen. "AES proposal: Rijndael." (1999): 21. |
| 15 | Shirai, Taizo, Kyoji Shibutani, Toru Akishita, Shiho Moriai, and Tetsu Iwata. "The 128-bit blockcipher CLEFIA." In Fast software encryption, pp. 181-195. Springer Berlin Heidelberg, 2007. |
| 16 | Lim, Chae Hoon, and Tymur Korkishko. "mCrypton-a lightweight block cipher for security of low-cost RFID tags and sensors." In Information Security Applications, pp. 243-258. Springer Berlin Heidelberg, 2006. |
| 17 | Borghoff, Julia, Anne Canteaut, Tim Güneysu, Elif Bilge Kavun, Miroslav Knezevic, Lars R. Knudsen, Gregor Leander et al. "PRINCE-a low-latency block cipher for pervasive computing applications." In Advances in Cryptology- ASIACRYPT 2012, pp. 208-225. Springer Berlin Heidelberg, 2012. |
| 18 | Standaert, Francois-Xavier, Gilles Piret, Neil Gershenfeld, and Jean-Jacques Quisquater. "SEA: A scalable encryption algorithm for small embedded applications." In Smart Card Research and Advanced Applications, pp. 222-236. Springer Berlin Heidelberg, 2006. |
| 19 | Gong, Zheng, Svetla Nikova, and Yee Wei Law. "KLEIN: a new family of lightweight block ciphers." In RFID. Security and Privacy, pp. 1-18. Springer Berlin Heidelberg, 2012. |
| 20 | ENGELS, Daniel, et al. The Hummingbird-2 lightweight authenticated encryption algorithm. In: RFID. Security and Privacy. Springer Berlin Heidelberg, 2012. p. 19-31. |
| 21 | HONG, Deukjo, et al. HIGHT: a new block cipher suitable for low-resource device. In: Cryptographic Hardware and Embedded Systems-CHES 2006. Springer Berlin Heidelberg, 2006. p. 46-59. |
| 22 | DE CANNIERE, Christophe; DUNKELMAN, Orr; KNEZEVIC, Miroslav. KATAN and KTANTAN-a family of small and efficient hardware-oriented block ciphers. In: Cryptographic Hardware and Embedded Systems-CHES 2009. Springer Berlin Heidelberg, 2009. p. 272-288. |
| 23 | LAI, Xuejia; MASSEY, James L. A proposal for a new block encryption standard. In: Advances in Cryptology-EUROCRYPT'90. Springer Berlin Heidelberg, 1991. p. 389-404. |
| 24 | Poschmann, Axel, Gregor Leander, Kai Schramm, and Christof Paar. "New Light-Weight DES Variants Suited for RFID Applications, proceedings of Fast Software Encryption 14." Lecture Notes in Computer Science, Springer (to appear) (2007). |
| 25 | Bernstein, Daniel J. "The Salsa20 family of stream ciphers." In New stream cipher designs, pp. 84-97. Springer Berlin Heidelberg, 2008. |
| 26 | Wheeler, David J., and Roger M. Needham. "TEA, a tiny encryption algorithm." In Fast Software Encryption, pp. 363-366. Springer Berlin Heidelberg, 1995. |
 |
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