Avoiding version redundancy for high performance reads in temporal databases

International Workshop on Data Management on New Hardware Pub Date : 2008-06-13 DOI:10.1145/1457150.1457159
Khaled Jouini, G. Jomier
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引用次数: 2

Abstract

A major performance bottleneck for database systems is the memory hierarchy. The performance of the memory hierarchy is directly related to how the content of disk pages maps to the L2 cache lines, i.e. to the organization of data within a disk page, called the page layout. The prevalent page layout in database systems is the N-ary Storage Model (NSM). As demonstrated in this paper, using NSM for temporal data deteriorates memory hierarchy performance for query-intensive workloads. This paper proposes two cacheconscious, read-optimized, page layouts for temporal data. Experiments show that the proposed page layouts are substantially faster than NSM.
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在时态数据库中避免高性能读取的版本冗余
数据库系统的一个主要性能瓶颈是内存层次结构。内存层次结构的性能直接关系到磁盘页面的内容如何映射到L2缓存线,即磁盘页面内的数据组织,称为页面布局。数据库系统中流行的页面布局是n元存储模型(NSM)。如本文所示,对于查询密集型工作负载,对临时数据使用NSM会降低内存层次结构性能。本文针对时态数据提出了两种具有缓存意识的、读取优化的页面布局。实验表明,所提出的页面布局比NSM要快得多。
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International Workshop on Data Management on New Hardware
International Workshop on Data Management on New Hardware
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