An adaptive replication model for heterogeneous systems

M. Nader-uz-zaman, M. A. Kashem, R. B. Ahmad, Mostafijur Rahman
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引用次数: 3

Abstract

Data replication is an increasingly important topic as databases are more and more deployed over distributed systems, grid community and clustering systems. The performance, reliability and portability of entire database may possible by using replication technique. Replication may be considered as a data backup policy. Replication in homogeneous system is common practice in real life, but replication in heterogeneous system is quite challenging, because of the dissimilar computing environment. Since the computer environment porn to be heterogeneous, hence it's a promising field for researchers to consider replication in heterogeneous environment. In our research a persistence layer has been proposed for replication in heterogeneous systems. This persistence layer work on asynchronous model, hence it may call as asynchronous replication model. The model works implements multi threading technique for creating parallel connection with peer servers. The main server and replicated server are connected with a common interface. The interface is a replication engine, which intelligently holds data and makes decision depending on different factors for sending data to smoothen the replication process. The whole structure follows the rules of SOA (Service oriented architecture) thus, modification of replication servers do not affect the main server. Finally the architecture of this concept builds on different configurable files. These files help us in system up-gradation without shutting down the system. At the end, some experiments have been carried out and the results have been analyzed.
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异构系统的自适应复制模型
随着数据库越来越多地部署在分布式系统、网格社区和集群系统上,数据复制是一个越来越重要的主题。利用复制技术可以提高整个数据库的性能、可靠性和可移植性。复制可以看作是一种数据备份策略。同构系统中的复制是现实生活中常见的做法,但由于计算环境的不同,异构系统中的复制具有相当大的挑战性。由于计算机环境是异构的,因此研究异构环境下的复制是一个很有前途的研究领域。在我们的研究中,我们提出了一个用于异构系统复制的持久层。此持久化层工作在异步模型上,因此可称为异步复制模型。该模型实现了与对等服务器创建并行连接的多线程技术。主服务器和复制服务器之间使用公共接口连接。接口是一个复制引擎,它智能地保存数据,并根据发送数据的不同因素做出决策,以平滑复制过程。整个结构遵循SOA(面向服务的体系结构)的规则,因此,修改复制服务器不会影响主服务器。最后,这个概念的体系结构建立在不同的可配置文件之上。这些文件帮助我们在不关闭系统的情况下进行系统升级。最后进行了实验,并对实验结果进行了分析。
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