SLACID——面向列的内存数据库系统中的稀疏线性代数

D. Kernert, F. Köhler, Wolfgang Lehner
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引用次数: 19

摘要

科学计算和分析业务应用通常基于对大型稀疏矩阵的线性代数运算。随着主存储从磁盘到内存的硬件转移,现在可以直接在数据库引擎中执行线性代数查询。本文提出并比较了在面向列的内存数据库系统中存储稀疏矩阵的不同方法。我们表明,从压缩稀疏行表示派生的系统布局与柱状数据库设计集成得很好,并且当使用字典编码时,所得到的架构还适用于广泛的非数值用例。动态矩阵操作操作,如在线插入或删除元素,不包括在大多数线性代数框架中。因此,我们提出了一个由读优化主结构和写优化增量结构组成的混合架构,并通过应用核科学和网络图的工作流来评估动态稀疏矩阵工作负载的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SLACID - sparse linear algebra in a column-oriented in-memory database system
Scientific computations and analytical business applications are often based on linear algebra operations on large, sparse matrices. With the hardware shift of the primary storage from disc into memory it is now feasible to execute linear algebra queries directly in the database engine. This paper presents and compares different approaches of storing sparse matrices in an in-memory column-oriented database system. We show that a system layout derived from the compressed sparse row representation integrates well with a columnar database design and that the resulting architecture is moreover amenable to a wide range of non-numerical use cases when dictionary encoding is used. Dynamic matrix manipulation operations, like online insertion or deletion of elements, are not covered by most linear algebra frameworks. Therefore, we present a hybrid architecture that consists of a read-optimized main and a write-optimized delta structure and evaluate the performance for dynamic sparse matrix workloads by applying workflows of nuclear science and network graphs.
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