Paper 2026/370
Round-Optimal Byzantine Agreement without Trusted Setup
, Lucerne University of Applied Sciences and Arts, Lucerne University of Applied Sciences and Arts, Lucerne University of Applied Sciences and ArtsAbstract
Byzantine Agreement is a fundamental primitive in cryptography and distributed computing, and minimizing its round complexity is of paramount importance. The seminal works of Karlin and Yao [Manuscript'84] and Chor, Merritt and Shmoys [JACM'89] showed that any randomized $r$-round protocol must fail with probability at least $(c\cdot r)^{-r}$, for some constant $c$, when the number of corruptions is linear in the number of parties, $t = \theta(n)$. The work of Ghinea, Goyal and Liu-Zhang [Eurocrypt'22] introduced the first \emph{round-optimal BA} protocol matching this lower bound. However, the protocol requires a trusted setup for unique threshold signatures and random oracles. In this work, we present the first round-optimal BA protocols without trusted setup: a protocol for $t<n/3$ with statistical security, and a protocol for $t<(1-\epsilon)n/2$ with any constant $\epsilon > 0$, assuming a bulletin-board PKI for signatures.
Metadata
- Available format(s)
-
PDF
- Category
- Cryptographic protocols
- Publication info
- A major revision of an IACR publication in EUROCRYPT 2026
- Keywords
- byzantine agreementround-optimalrandomized byzantine agreementtrusted setupcommon coinproxcensus
- Contact author(s)
-
diana ghinea @ hslu ch
ivana @ subset ch
chendaliu @ gmail com - History
- 2026-02-24: approved
- 2026-02-23: received
- See all versions
- Short URL
- https://ia.cr/2026/370
- License
-
CC BY
BibTeX
@misc{cryptoeprint:2026/370,
author = {Diana Ghinea and Ivana Klasovitá and Chen-Da Liu-Zhang},
title = {Round-Optimal Byzantine Agreement without Trusted Setup},
howpublished = {Cryptology {ePrint} Archive, Paper 2026/370},
year = {2026},
url = {https://eprint.iacr.org/2026/370}
}
