Paper 2019/1313

On Oblivious Amplification of Coin-Tossing Protocols

Nir Bitansky and Nathan Geier

Abstract

We consider the problem of amplifying two-party coin-tossing protocols: given a protocol where it is possible to bias the common output by at most $\rho$, we aim to obtain a new protocol where the output can be biased by at most $\rho^\star<\rho$. We rule out the existence of a natural type of amplifiers called oblivious amplifiers for every $\rho^\star<\rho$. Such amplifiers ignore the way that the underlying $\rho$-bias protocol works and can only invoke an oracle that provides $\rho$-bias bits. We provide two proofs of this impossibility. The first is by a reduction to the impossibility of deterministic randomness extraction from Santha-Vazirani sources. The second is a direct proof that is more general and also rules outs certain types of asymmetric amplification. In addition, it gives yet another proof for the Santha-Vazirani impossibility.