Heraclius: A Byzantine Fault Tolerant Database System with Potential for Modern Payments Systems

Brotherton, Jeremy; Gollamudi, Tarakaram; Kassis, Jeremy; Lovejoy, James; Pillai, Narayanan; Thompson, Eric C.

doi:10.17016/FEDS.2025.012

Working Paper

Heraclius: A Byzantine Fault Tolerant Database System with Potential for Modern Payments Systems

Abstract: Modern payments systems are critical infrastructure for the US and global economy, and they all utilize computing systems to facilitate transactions. These computing systems can be vulnerable to failures and an outage of a payment system could cause a serious ripple effect throughout the economy it supports. Commonly used designs in existing distributed computer systems often lack a built-in defense against certain types of failures (e.g., malicious attacks and silent data corruption) and rely on preventing these failures from happening in the first place via techniques external to the system itself. These computer system failures can cause downtime in the systems (e.g., modern payments systems) that rely on them. Byzantine Fault Tolerant (BFT) systems have the potential of improved resiliency and security. BFT systems can tolerate a larger range of failure modes than contemporary designs but suffer from performance challenges. Our work sought to design and evaluate a scalable BFT architecture and compare its properties to other database architectures used in payments infrastructure. This analysis is intended to better understand technical tradeoffs and is agnostic to broader policy or operational considerations. In this paper, we present Heraclius, a parallelizable leader-based, BFT key-value store that could be extended for use in payment systems. Heraclius executes transactions in parallel to achieve high transaction volumes. We analyze the scalability of the protocol, bottlenecks and potential solutions to the bottlenecks. We ran the prototype implementation with up to 256 nodes and achieved a transactional volume of 110 thousand operations per second with a transaction latency 0.2 seconds.

Keywords: BFT systems; Payment systems;

JEL Classification: ;

https://doi.org/10.17016/FEDS.2025.012