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Publication
PODC 2003
Conference paper
An Asynchronous Protocol for Distributed Computation of RSA Inverses and its Applications
Abstract
This paper presents an efficient asynchronous protocol to compute RSA inverses with respect to a public RSA modulus N whose factorization is secret and shared among a group of parties. Given two numbers x and e, the protocol computes y such that ye ≡ x (mod N). A synchronous protocol for this task has been presented by Catalano, Gennaro, and Halevi (Eurocrẏpt 2000), but the standard approach for turning this into an asynchronous protocol would require a Byzantine-agreement sub-protocol. Our protocol adopts their approach, but exploits a feature of the problem in order to avoid the use of a Byzantine agreement primitive. Hence, it leads to efficient asynchronous protocols for threshold signatures and for Byzantine agreement based on the strong RSA assumption, without the use of random oracles.