Design of a More Scalable Database System

Hang Zhuang, Kun Lu, Changlong Li, Mingming Sun, Hang Chen, Xuehai Zhou
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引用次数: 5

Abstract

With the development of cloud computing and internet, e-Commerce, e-Business and corporate world revenue are increasing with high rate. These areas require scalable and consistent databases. NoSQL databases such as HBase has been proven to scalability and well performance on cloud computing platforms. However, the inevitable special data with few increment and frequent access leads to hotspot data and unbalanced accessing distribution between data storage servers. Due to their properties, these data often cannot be stored in multiple tables. Some storage nodes become the bottleneck of the distributed storage system, therefore, it becomes difficult to improve the performance by increasing the number of nodes which severely limits the scalability of the storage system. In order to make the performance of the cluster increases with the size of the cluster simultaneously, we devise a new distributed database storage framework to solve those issues mentioned above by changing the storage and read-write mode of the hotspot data. This structure guarantees that the hotspot data will not aggregate in the same storage node, as it guarantees that the data is not too hot in a single storage node. We implement the scalable database based on Apache HBase, which achieve almost double performance of throughput considering heavy read-write pressure situation only with double reading substites. Besides, heavy load node owing to hotspot data will no longer present in the new distributed database.
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一个更具可扩展性的数据库系统的设计
随着云计算和互联网的发展,电子商务、电子商务和企业收入正在高速增长。这些领域需要可伸缩且一致的数据库。HBase等NoSQL数据库在云计算平台上已经被证明具有良好的可扩展性和性能。然而,由于不可避免地存在增量少、访问频繁的特殊数据,导致数据存储服务器之间存在热点数据和不均衡的访问分布。由于它们的属性,这些数据通常不能存储在多个表中。一些存储节点成为分布式存储系统的瓶颈,通过增加节点数量来提高性能变得困难,严重限制了存储系统的可扩展性。为了使集群的性能随着集群规模的增加而同步增长,我们设计了一种新的分布式数据库存储框架,通过改变热点数据的存储和读写模式来解决上述问题。这种结构保证了热点数据不会聚集在同一个存储节点上,因为它保证了数据在单个存储节点上不会太热。我们实现了基于Apache HBase的可扩展数据库,考虑到读写压力大的情况下,仅使用双读替代,就实现了几乎两倍的吞吐量性能。此外,新的分布式数据库将不再存在热点数据导致的重载节点。
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