Amplifying collision-resistance: A complexity-theoretic treatment


Canetti, Ran, Ron Rivest, Madhu Sudan, Luca Trevisan, Salil Vadhan, and Hoeteck Wee. “Amplifying collision-resistance: A complexity-theoretic treatment.” In A. Menezes, editor, Advances in Cryptology (CRYPTO '07), 4622:264-283. Lecture Notes in Computer Science, Springer-Verlag, 2007.
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We initiate a complexity-theoretic treatment of hardness amplification for collision-resistant hash functions, namely the transformation of weakly collision-resistant hash functions into strongly collision-resistant ones in the standard model of computation. We measure the level of collision resistance by the maximum probability, over the choice of the key, for which an efficient adversary can find a collision. The goal is to obtain constructions with short output, short keys, small loss in adversarial complexity tolerated, and a good trade-off between compression ratio and computational complexity. We provide an analysis of several simple constructions, and show that many of the parameters achieved by our constructions are almost optimal in some sense.

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Last updated on 07/14/2020