将对象代数扁平化以提供性能

Proceedings 14th International Conference on Data Engineering Pub Date : 1998-02-23 DOI:10.1109/ICDE.1998.655820

P. Boncz, A. N. Wilschut, M. Kersten

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引用次数: 84

摘要

代数转换和优化技术一直是关系查询执行的首选方法，但由于面向对象查询语言的复杂性，在面向对象(OO) dbms中应用它们很困难。本文证明，可以通过将OO数据模型映射到由最先进的数据库内核Monet实现的二进制关系模型来简化这个问题。我们提出了一种通用的映射方案来平面化数据模型，并研究了直接面向对象模型的情况。我们将展示扁平化如何使我们能够仅使用一组非常有限的简单操作来实现查询代数。讨论了所需的原语和查询执行策略，并在1-GByte TPC-D(事务处理性能委员会的基准测试D)上评估了它们的性能，表明我们的分而治之方法产生了出色的结果。

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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Flattening an object algebra to provide performance

Algebraic transformation and optimization techniques have been the method of choice in relational query execution, but applying them in object-oriented (OO) DBMSs is difficult due to the complexity of OO query languages. This paper demonstrates that the problem can be simplified by mapping an OO data model to the binary relational model implemented by Monet, a state-of-the-art database kernel. We present a generic mapping scheme to flatten data models and study the case of straightforward OO model. We show how flattening enabled us to implement a query algebra, using only a very limited set of simple operations. The required primitives and query execution strategies are discussed, and their performance is evaluated on the 1-GByte TPC-D (Transaction-processing Performance Council's Benchmark D), showing that our divide-and-conquer approach yields excellent results.

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Proceedings 14th International Conference on Data Engineering

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