多通道超级账本网络中考虑事务最坏延迟的最优调度算法

IF 2 4区 计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS Parallel Computing Pub Date : 2023-09-01 DOI:10.1016/j.parco.2023.103041
Ou Wu , Shanshan Li , He Zhang , Liwen Liu , Haoming Li , Yanze Wang , Ziyi Zhang
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引用次数: 0

摘要

作为最受欢迎的联盟区块链平台,Hyperledger Fabric(简称Fabric)发布了多个版本,支持不同的共识协议,以解决当前和未来网络交易面临的风险。例如,Fabric v1.4和v2.0使用Kafka和Raft机制来完成共识,并确保系统能够承受崩溃、网络分区或网络关闭等故障。在多通道Fabric网络架构中,系统结构无法保证恶意节点的行为。不同信道上的对等组之间的复杂协作会极大地影响整个网络架构的安全性和效率,这是一个难以估计和优化的问题。为了解决这一挑战,我们使用Lyapunov优化框架设计了基于对等节点随机调度的漂移加惩罚算法(DPPA)和事务最坏情况延迟算法(TWDA)。DPPA保证了系统的稳定性,在最小的安全概率下提供最大的事务处理速率。数值结果表明,该算法能很好地平衡系统安全概率和队列积累。TWDA通过设置最坏情况的事务延迟阈值,考虑丢弃延迟时间过长的事务。在考虑Fabric系统的安全概率和队列积累的情况下,给出了对节点的最优调度。对两种算法进行了数值模拟,结果表明,TWDA算法的安全性略差于DPPA算法,但系统队列累积量明显小于DPPA算法。因此,仿真结果不仅验证了两种算法的有效性,而且为操作员提供了考虑不同因素的操作策略。
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An optimal scheduling algorithm considering the transactions worst-case delay for multi-channel hyperledger fabric network

As the most popular consortium blockchain platform, Hyperledger Fabric (Fabric for short) has released multiple versions that support different consensus protocols to address the risks faced in current and future network transactions. For example, Fabric v1.4 and v2.0 use Kafka and Raft mechanisms to complete consensus and ensure that the system can withstand failures such as crashes, network partitions, or network shutdowns. In a multi-channel Fabric network architecture, the system structure cannot guarantee the behavior of malicious nodes. Complex cooperation between peer groups on different channels can greatly affect the security and efficiency of the entire network architecture, which is challenging to estimate and optimize.

To address this challenge, we designed a Drift Plus Penalty Algorithm (DPPA) and a Transaction Worst-case Delay Algorithm (TWDA) based on peer node random scheduling using the Lyapunov optimization framework. The DPPA ensures the stability of the system and provides the maximum transaction processing rate under the minimum safety probability. The numerical results show that this algorithm can achieve a good balance between system security probability and queue accumulation. The TWDA considers discarding transactions with excessively long delay time by setting a worst-case transaction delay threshold. When considering both the security probability and queue accumulation of the Fabric system, the optimal scheduling of peer nodes is given. Numerical simulations were conducted on two types of algorithms, and the results showed that the security of the TWDA was slightly worse than that of the DPPA, but the system queue accumulation was significantly smaller. Therefore, the simulation results not only validate the effectiveness of the two types of algorithms but also provide operators with operational strategies that consider different factors.

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来源期刊
Parallel Computing
Parallel Computing 工程技术-计算机:理论方法
CiteScore
3.50
自引率
7.10%
发文量
49
审稿时长
4.5 months
期刊介绍: Parallel Computing is an international journal presenting the practical use of parallel computer systems, including high performance architecture, system software, programming systems and tools, and applications. Within this context the journal covers all aspects of high-end parallel computing from single homogeneous or heterogenous computing nodes to large-scale multi-node systems. Parallel Computing features original research work and review articles as well as novel or illustrative accounts of application experience with (and techniques for) the use of parallel computers. We also welcome studies reproducing prior publications that either confirm or disprove prior published results. Particular technical areas of interest include, but are not limited to: -System software for parallel computer systems including programming languages (new languages as well as compilation techniques), operating systems (including middleware), and resource management (scheduling and load-balancing). -Enabling software including debuggers, performance tools, and system and numeric libraries. -General hardware (architecture) concepts, new technologies enabling the realization of such new concepts, and details of commercially available systems -Software engineering and productivity as it relates to parallel computing -Applications (including scientific computing, deep learning, machine learning) or tool case studies demonstrating novel ways to achieve parallelism -Performance measurement results on state-of-the-art systems -Approaches to effectively utilize large-scale parallel computing including new algorithms or algorithm analysis with demonstrated relevance to real applications using existing or next generation parallel computer architectures. -Parallel I/O systems both hardware and software -Networking technology for support of high-speed computing demonstrating the impact of high-speed computation on parallel applications
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