NESSIE


'NESSIE (New European Schemes for Signatures, Integrity and Encryption)' was a European research project funded from 2000–2003 to identify secure cryptographic primitives. The project was comparable to the NIST AES process and the Japanese Government-sponsored CRYPTREC project, but with notable differences from both. In particular, there is both overlap and disagreement between the selections and recommendations from NESSIE and CRYPTREC (as of the August 2003 draft report). The NESSIE participants include some of the foremost active cryptographers in the world, as does the CRYPTREC project.
NESSIE was intended to identify and evaluate quality cryptographic designs in several categories, and to that end issued a public call for submissions in March 2000. Forty-two were received, and in February 2003 twelve of the submissions were selected. In addition, five algorithms already publicly known, but not explicitly submitted to the project, were chosen as "selectees". The project has publicly announced that "no weaknesses were found in the selected designs".

Contents
Selected algorithms
Block ciphers
Public-key encryption
MAC algorithms and cryptographic hash functions
Digital signature algorithms
Identification schemes
Project contractors
See also
External links

Selected algorithms


The selected algorithms and their submittors or developers are listed below. The five already publicly known, but not formally submitted to the project, are marked with a "
★ ". Most may be used by anyone for any purpose without needing to seek a patent license from anyone; a license agreement is needed for those marked with a "#", but the licensors of those have committed to "reasonable non-discriminatory license terms for all interested", according to a NESSIE project press release.
None of the six stream ciphers submitted to NESSIE were selected since every one fell to cryptanalysis. This surprising result led to the eSTREAM project.
Block ciphers


MISTY1: Mitsubishi Electric

Camellia: Nippon Telegraph and Telephone and Mitsubishi Electric

SHACAL-2: Gemplus

AES
★ : (Advanced Encryption Standard) (NIST, FIPS Pub 197) (aka Rijndael)
Public-key encryption


ACE Encrypt#: IBM Zurich Research Laboratory

PSEC-KEM: Nippon Telegraph and Telephone Corp

RSA-KEM
★ : (draft of ISO/IEC 18033-2)
MAC algorithms and cryptographic hash functions


Two-Track-MAC: Katholieke Universiteit Leuven and debis AG

UMAC: Intel Corp, Univ. of Nevada at Reno, IBM Research Laboratory, Technion Institute, and Univ. of California at Davis

CBC-MAC
★ : (ISO/IEC 9797-1);

HMAC
★ : ( ISO/IEC 9797-1);

WHIRLPOOL: Scopus Tecnologia S.A. and K.U.Leuven

SHA-256
★ , SHA-384
★ and SHA-512
★ : NSA, (US FIPS 180-2)
Digital signature algorithms


ECDSA#: Certicom Corp

RSA-PSS: RSA Laboratories

SFLASH: Schlumberger Corp (SFLASH was broken in 2007 and should not be used anymore).
Identification schemes


GPS-auth: Ecole Normale Supérieure, France Télécom, and La Poste

Project contractors


The contractors and their representatives in the project were:

Katholieke Universiteit Leuven (Prime contractor): Bart Preneel, Alex Biryukov, Antoon Bosselaers, Christophe De Cannière, Bart Van Rompay

École Normale Supérieure: Jacques Stern, Louis Granboulan, Gwenaëlle Martinet

Royal Holloway, University of London: Sean Murphy, Alex Dent, Rachel Shipsey, Christine Swart, Juliette White

★ Siemens AG: Markus Dichtl, Marcus Schafheutle

Technion Institute of Technology: Eli Biham, Orr Dunkelman

Université catholique de Louvain: Jean-Jacques Quisquater, Mathieu Ciet, Francesco Sica

Universitetet i Bergen: Lars Knudsen, HÃ¥vard Raddum

See also



ECRYPT

External links



The homepage of the NESSIE project

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