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Blockchain systems for trade clearing

Wei-Tek Tsai (Department of Computer Science and Engineering, Beihang University, Beijing, China; Department of Computing, Informatics and Decision Systems Engineering, Arizona State University, Tempe, Arizona, USA and Beijing Tiande Technologies, Beijing, China)
Yong Luo (Huazhong University of Science and Technology, Wuhan, China)
Enyan Deng (Beijing Tiande Technologies, Beijing, China)
Jing Zhao (Minsheng Bank, Beijing, China)
Xiaoqiang Ding (Letv Holdings, Beijing, China)
Jie Li (Guangdong Clearing Corporation, Guangzhou, China)
Bo Yuan (Beijing Tiande Technologies Ltd., Beijing, China)

Journal of Risk Finance

ISSN: 1526-5943

Article publication date: 6 April 2020

841

Abstract

Purpose

This paper aims to apply blockchains (BCs) for trade clearing and settlement in a realistic clearinghouse. The purpose is to demonstrate the feasibility and scalability of this approach.

Design/methodology/approach

The study uses account BCs and trading BCs as building blocks for trade clearing and settlement. Careful design is made to ensure that this approach is feasible and scalable.

Findings

A design has been proposed that can process hundreds of thousands of trades for a clearinghouse and it addresses performance, privacy and scalability of realistic trade clearing and settlement. The design has been implemented and experimented in a clearinghouse for over two months and processes over 3B real transactions from an exchange. The first month was to experiment with the system with historical data, the second month was to experiment with real-time data during market trading hours. The system performed as designed and intended.

Research limitations/implications

This is the first large research paper that applied BCs for clearing in the world. The authors applied the system to a clearinghouse and processed over 3 billion transactions, equivalent to 13 years of London Stock Exchange transaction volume, demonstrating that BCs can handle a large number of transactions.

Practical implications

The design can be duplicated to many clearinghouses in the world, and this also paves the way BCs can be used in large financial institutions.

Social implications

An implication is that other trading firms, clearinghouses and banks can apply the same technology for trade clearing, ushering the way BCs can be used in institutions. As clearing is a core function in business transactions, this has significant implications. The design can be discussed and improved in various communities.

Originality/value

As this is the first application of BCs to large clearinghouses that uses unique BC designs. This has significant value. Many studies have been performed but few have been reported in the scientific community. The system has been implemented, experimented and demonstrated in public for months.

Keywords

Acknowledgements

More than 20 people participated in this project from Arizona State University, Beihang University, GCH, Minsheng Bank, Letv, Tiande Tech and Huazhong Science and Technology University. Numerous hours have been spent on studying settlement and clearing processes at GCH. Their dedication to this project is greatly appreciated. This project is partially supported by the Chinese 1,000-Talent Program, State Key Laboratory Fund at Beihang University, China NFS fund and China Mobile via Ministry of Education Fund.

Citation

Tsai, W.-T., Luo, Y., Deng, E., Zhao, J., Ding, X., Li, J. and Yuan, B. (2020), "Blockchain systems for trade clearing", Journal of Risk Finance, Vol. 21 No. 5, pp. 469-492. https://doi.org/10.1108/JRF-02-2017-0022

Publisher

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Emerald Publishing Limited

Copyright © 2020, Emerald Publishing Limited

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