Quark (hash function)
Quark is a cryptographic hash function (family). It was designed by Jean-Philippe Aumasson, Luca Henzen, Willi Meier and María Naya-Plasencia.
Quark was created because of the expressed need by application designers (notably for implementing protocols) for a lightweight cryptographic hash function. The SHA-3 NIST hash function competition concerned general-purpose designs and focused on software performance.
Quark is a lightweight hash function, based on a single security level and on the sponge construction, to minimize memory requirements. Inspired by the lightweight ciphers and KATAN, the hash function family Quark is composed of the three instances u-Quark, d-Quark, and t-Quark. Hardware benchmarks show that Quark compares well to previous lightweight hashes.
For example, the u-Quark conjecturally instance provides at least 64-bit security against all attacks (, multicollisions, distinguishers, etc.), fits in 1379 gate-equivalents, and consumes in average 2.44 at 100 kHz in 0.18 µm ASIC.
Contents
Implementations
Quark is used in RFID products, but also in cryptocurrencies like PIVX.
External links
- Quark on Jean-Philippe Aumasson’s website 131002.net
- Quark on the International Association for Cryptologic Research website iacr.org