Performance upgrade for large object bases using disk arrays

Proceedings of 7th International Conference and Workshop on Database and Expert Systems Applications: DEXA 96 Pub Date : 1996-09-09 DOI:10.1109/DEXA.1996.558342

Chiang Lee, Chih-Horng Ke, Yaw-Huei Chen

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引用次数: 1

Abstract

The authors propose the use of multiple disks to increase the bandwidth of disk I/O so as to alleviate the I/O bottleneck problem existed in OODB applications. However, a major difficulty in using multiple disks for the support of OODBs is that an object may reference or be referenced by other objects through associations. This requires that the search of objects be sequential through the association links, which is sometimes referred to as the navigational search of objects in an object base. This restriction limits the concurrency in object retrieval and invalidates the use of multiple disks. Techniques such as clustering/indexing of objects do not help to resolve this problem. By using a two-phase query processing strategy previously proposed by them, objects of interest can be accessed in parallel from multiple disk. The aim of the paper is to design a probability-based evaluation model to estimate the performance of using multiple disks and to compare it with a single disk system. The result shows that the scheme is viable and a significant improvement is achieved while multiple disks are used.

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使用磁盘阵列的大型对象库的性能升级

作者提出使用多个磁盘来增加磁盘I/O的带宽，以缓解OODB应用中存在的I/O瓶颈问题。然而，使用多个磁盘来支持oodb的一个主要困难是，一个对象可能通过关联引用或被其他对象引用。这要求通过关联链接对对象进行顺序搜索，这有时被称为对象库中对象的导航搜索。这个限制限制了对象检索中的并发性，并使多个磁盘的使用无效。诸如对象的聚类/索引之类的技术无助于解决这个问题。通过使用他们之前提出的两阶段查询处理策略，可以从多个磁盘并行访问感兴趣的对象。本文的目的是设计一个基于概率的评估模型来评估使用多个磁盘系统的性能，并将其与单个磁盘系统进行比较。结果表明，该方案是可行的，并且在使用多磁盘时取得了显著的改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 7th International Conference and Workshop on Database and Expert Systems Applications: DEXA 96

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