Litcius/Paper detail

The Impact of Block Parameters on the Throughput and Security of Blockchains

Elham Akbari, Wenbing Zhao, Shunkun Yang, Xiong Luo

202018 citationsDOI

Abstract

It has been well recognized that traditional blockchains have limited throughput. It is intuitive to achieve higher throughput by increasing the block size and shortening the block interval. In this paper, we study the security implications on doing so, and define the boundary for acceptable block sizes and block intervals. We define the security of the blockchain in terms of the stale block rate in the network and carry out an empirical study using a blockchain simulator to find the optimal block parameters (i.e., size and interval). We show that it is possible to achieve sufficiently high throughput for a blockchain platform to be used for activities beyond cryptocurrency, such as state-level electronic voting.

Topics & Concepts

Block (permutation group theory)ThroughputComputer scienceBlock sizeCryptocurrencyInterval (graph theory)BlockchainCryptographyBoundary (topology)Computer securityOperating systemMathematicsWirelessKey (lock)Mathematical analysisCombinatoricsGeometryBlockchain Technology Applications and SecurityAdvanced Queuing Theory AnalysisCloud Computing and Resource Management