English

Bitcoin-NG: A Scalable Blockchain Protocol

Cryptography and Security 2015-11-12 v2

Abstract

Cryptocurrencies, based on and led by Bitcoin, have shown promise as infrastructure for pseudonymous online payments, cheap remittance, trustless digital asset exchange, and smart contracts. However, Bitcoin-derived blockchain protocols have inherent scalability limits that trade-off between throughput and latency and withhold the realization of this potential. This paper presents Bitcoin-NG, a new blockchain protocol designed to scale. Based on Bitcoin's blockchain protocol, Bitcoin-NG is Byzantine fault tolerant, is robust to extreme churn, and shares the same trust model obviating qualitative changes to the ecosystem. In addition to Bitcoin-NG, we introduce several novel metrics of interest in quantifying the security and efficiency of Bitcoin-like blockchain protocols. We implement Bitcoin-NG and perform large-scale experiments at 15% the size of the operational Bitcoin system, using unchanged clients of both protocols. These experiments demonstrate that Bitcoin-NG scales optimally, with bandwidth limited only by the capacity of the individual nodes and latency limited only by the propagation time of the network.

Keywords

Cite

@article{arxiv.1510.02037,
  title  = {Bitcoin-NG: A Scalable Blockchain Protocol},
  author = {Ittay Eyal and Adem Efe Gencer and Emin Gun Sirer and Robbert van Renesse},
  journal= {arXiv preprint arXiv:1510.02037},
  year   = {2015}
}
R2 v1 2026-06-22T11:15:02.093Z