Paper 2023/1364
Convex Consensus with Asynchronous Fallback
, ETH Zurich, ETH Zurich, ETH ZurichAbstract
Convex Consensus (CC) allows a set of parties to agree on a value $v$ inside the convex hull of their inputs with respect to a predefined abstract convexity notion, even in the presence of byzantine parties. In this work, we focus on achieving CC in the best-of-both-worlds paradigm, i.e., simultaneously tolerating at most $t_s$ corruptions if communication is synchronous, and at most $t_a \leq t_s$ corruptions if it is asynchronous. Our protocol is randomized, which is a requirement under asynchrony, and we prove that it achieves optimal resilience. In the process, we introduce communication primitives tailored to the network-agnostic model. These are a deterministic primitive allowing parties to obtain intersecting views (Gather), and a randomized primitive leading to identical views (Agreement on a Core-Set). Our primitives provide stronger guarantees than previous counterparts, making them of independent interest.
Metadata
- Available format(s)
-
PDF
- Category
- Cryptographic protocols
- Publication info
- Published elsewhere. Minor revision. DISC'24
- Keywords
- convex consensusnetwork-agnostic protocolsagreement on a core-set.
- Contact author(s)
-
aconstantine @ ethz ch
ghinead @ ethz ch
wattenhofer @ ethz ch
wfloris @ ethz ch - History
- 2024-10-23: last of 2 revisions
- 2023-09-12: received
- See all versions
- Short URL
- https://ia.cr/2023/1364
- License
-
CC BY
BibTeX
@misc{cryptoeprint:2023/1364,
author = {Andrei Constantinescu and Diana Ghinea and Roger Wattenhofer and Floris Westermann},
title = {Convex Consensus with Asynchronous Fallback},
howpublished = {Cryptology {ePrint} Archive, Paper 2023/1364},
year = {2023},
url = {https://eprint.iacr.org/2023/1364}
}
