用统计模型丰富软件架构模型,用于现代存储环境中的性能预测

Qais Noorshams, Roland Reeb, A. Rentschler, Samuel Kounev, Ralf H. Reussner
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引用次数: 9

摘要

基于模型的软件架构级性能预测方法由于具有较高的抽象级别,为容量规划提供了强大的工具。为了处理当今应用程序产生的越来越多的数据,现代存储系统变得越来越复杂,具有多层和复杂的优化策略。然而,当前的软件架构级建模方法很难解释这种发展,并且由于过于简单的存储假设而不适合复杂的存储环境,从而导致不准确的性能预测。为了解决这个问题,我们在本文中提出了一种新的方法,将软件架构级性能模型与捕获现代存储系统复杂行为的统计模型结合起来。更具体地说,我们首先提出了一种通用方法,用统计I/O性能模型丰富软件架构建模方法。然后,我们介绍了如何实现建模概念以及如何求解模型以获得性能结果。最后,我们在基于Sun Fire和IBM System z服务器硬件的两种最先进环境的三个案例研究中广泛地评估了我们的方法。使用我们的方法,我们能够在几乎所有情况下在20%的预测误差内成功地预测应用程序的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enriching software architecture models with statistical models for performance prediction in modern storage environments
Model-based performance prediction approaches on the software architecture-level provide a powerful tool for capacity planning due to their high abstraction level. To process the increasing amount of data produced by today's applications, modern storage systems are becoming increasingly complex having multiple tiers and intricate optimization strategies. Current software architecture-level modeling approaches, however, struggle to account for this development and are not well-suited in complex storage environments due to overly simplistic storage assumptions, which consequently leads to inaccurate performance predictions. To address this problem, in this paper we present a novel approach to combine software architecture-level performance models with statistical models that capture the complex behavior of modern storage systems. More specifically, we first propose a general methodology for enriching software architecture modeling approaches with statistical I/O performance models. Then, we present how we realize the modeling concepts as well as model solving to obtain performance results. Finally, we evaluate our approach extensively in the context of three case studies with two state-of-the-art environments based on Sun Fire and IBM System z server hardware. Using our approach, we are able to successfully predict the application performance within 20 % prediction error in almost all cases.
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