DBSherlock:事务性数据库的性能诊断工具

Dong Young Yoon, Ning Niu, Barzan Mozafari
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引用次数: 65

摘要

运行在线事务处理(OLTP)系统是数据库管理员(dba)需要完成的最艰巨的任务之一。由于企业依赖OLTP数据库来支持其关键任务和实时应用程序,因此较差的数据库性能会直接影响其收入和用户体验。因此,dba不断地监视、诊断和纠正任何性能下降。不幸的是,调试和诊断OLTP性能问题的手动过程非常繁琐和重要。OLTP数据库中的性能问题通常不是由单个缓慢的查询引起的,而是由于大量并发和竞争事务叠加在一起造成了难以隔离的复合非线性影响。请求量、事务模式、网络流量或数据分布的突然变化可能导致以前丰富的资源变得稀缺,性能急剧下降。本文提供了一个实用的工具,可以帮助dba快速可靠地诊断OLTP数据库中的性能问题。通过分析在系统生命周期内收集的数百个统计信息和配置,我们的算法可以快速识别一小部分潜在原因,并将其呈现给DBA。DBA建立的根本原因被重新纳入我们的算法,作为一个新的因果模型,以提高未来的诊断。我们的实验表明,该算法在寻找正确的解释方面比最先进的算法要准确得多。
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DBSherlock: A Performance Diagnostic Tool for Transactional Databases
Running an online transaction processing (OLTP) system is one of the most daunting tasks required of database administrators (DBAs). As businesses rely on OLTP databases to support their mission-critical and real-time applications, poor database performance directly impacts their revenue and user experience. As a result, DBAs constantly monitor, diagnose, and rectify any performance decays. Unfortunately, the manual process of debugging and diagnosing OLTP performance problems is extremely tedious and non-trivial. Rather than being caused by a single slow query, performance problems in OLTP databases are often due to a large number of concurrent and competing transactions adding up to compounded, non-linear effects that are difficult to isolate. Sudden changes in request volume, transactional patterns, network traffic, or data distribution can cause previously abundant resources to become scarce, and the performance to plummet. This paper presents a practical tool for assisting DBAs in quickly and reliably diagnosing performance problems in an OLTP database. By analyzing hundreds of statistics and configurations collected over the lifetime of the system, our algorithm quickly identifies a small set of potential causes and presents them to the DBA. The root-cause established by the DBA is reincorporated into our algorithm as a new causal model to improve future diagnoses. Our experiments show that this algorithm is substantially more accurate than the state-of-the-art algorithm in finding correct explanations.
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