Yonatan Karidi-Heller scite author profile

In a distributed coin-flipping protocol, Blum [ACM Transactions on Computer Systems '83], the parties try to output a common (close to) uniform bit, even when some adversarially chosen parties try to bias the common output. In an adaptively secure full-information coin flip, Ben-Or and Linial [FOCS '85], the parties communicate over a broadcast channel and a computationally unbounded adversary can choose which parties to corrupt during the protocol execution. Ben-Or and Linial proved that the ℓ-party majority protocol is resilient to o( √ ℓ) corruptions (ignoring log factors), and conjectured this is a tight upper bound for any ℓ-party protocol (of any round complexity). Their conjecture was proved to be correct for single-turn (each party sends a single message) single-bit (a message is one bit) protocols, Lichtenstein, Linial, and Saks [Combinatorica '89], symmetric protocols Goldwasser, Kalai, and Park [ICALP '15], and recently for (arbitrary message length) single-turn protocols Tauman Kalai, Komargodski, and Raz [DISC '18]. Yet, the question for many-turn (even single-bit) protocols was left completely open.In this work we close the above gap, proving that no ℓ-party protocol (of any round complexity) is resilient to O( √ ℓ) (adaptive) corruptions.

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Yonatan Karidi-Heller

A Tight Lower Bound on Adaptively Secure Full-Information Coin Flip

A Tight Lower Bound on Adaptively Secure Full-Information Coin Flip

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