OciorMVBA: Near-Optimal Error-Free Asynchronous MVBA
Abstract
In this work, we propose an error-free, information-theoretically secure, asynchronous multi-valued validated Byzantine agreement (MVBA) protocol, called OciorMVBA. This protocol achieves MVBA consensus on a message with expected communication bits, expected messages, expected rounds, and expected common coins, under optimal resilience in an -node network, where up to nodes may be dishonest. Here, denotes the alphabet size of the error correction code used in the protocol. When error correction codes with a constant alphabet size (e.g., Expander Codes) are used, becomes a constant. An MVBA protocol that guarantees all required properties without relying on any cryptographic assumptions, such as signatures or hashing, except for the common coin assumption, is said to be information-theoretically secure (IT secure). Under the common coin assumption, an MVBA protocol that guarantees all required properties in all executions is said to be error-free. We also propose another error-free, IT-secure, asynchronous MVBA protocol, called OciorMVBArr. This protocol achieves MVBA consensus with expected communication bits, expected rounds, and expected common coins, under a relaxed resilience (RR) of . Additionally, we propose a hash-based asynchronous MVBA protocol, called OciorMVBAh. This protocol achieves MVBA consensus with expected bits, expected rounds, and expected common coins, under optimal resilience .
Cite
@article{arxiv.2501.00214,
title = {OciorMVBA: Near-Optimal Error-Free Asynchronous MVBA},
author = {Jinyuan Chen},
journal= {arXiv preprint arXiv:2501.00214},
year = {2025}
}