Forschung

Das Labor wird zitiert in:

Hutter, Michael and Schwabe, Peter: NaCl on 8-bit AVR Microcontrollers. In: Progress in Cryptology - AFRICACRYPT 2013, pp 156-172. PDF Springer
There exists an extensive literature describing implementations of cryptographic primitives on AVR microcontrollers and other embedded processors. Some of them have been integrated into libraries that offer a set of cryptographic functionalities, e.g., AVR-Crypto-Lib[15], TinyECC[24], Na-noECC[32], or the AVR Cryptolibrary from Efton s.r.o.[13]. [...]
There is also a C implementation of Salsa20 in the AVR-Crypto-Lib[15] written by Daniel Otte. His implementation requires 723 clock cycles for initializing the state and 94476 clock cycles for encryption. [...]
15. Das Labor e.V. AVR-Crypto-Lib. Available online at http://www.das-labor.org/wiki/AVR-Crypto-Lib/en.

Wenzel-Benner, Christian and Gräf, Jens: XBX: eXternal Benchmarking eXtension for the SUPERCOP Crypto Benchmarking Framework. In: Cryptographic Hardware and Embedded Systems, CHES 2010, pp 294-305. PDF Springer
Most of this code came from ’Das Labor’[5], a small device working group related to Ruhr Uni Bochum who wrote a collection of cryptographic primitives implemented specifically for the Atmel AVR family. [...]
5. Otte, D., et al.: AVR Crypto Lib., http://www.das-labor.org/wiki/AVR-Crypto-Lib/en (accessed February 27, 2010)