CaDAnCE: A Criticality-Aware Deployment and Configuration Engine

2008 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC) Pub Date : 2008-05-05 DOI:10.1109/ISORC.2008.58

Gan Deng, D. Schmidt, A. Gokhale

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引用次数: 4

Abstract

Predictable deployment and configuration (D&C) of components in response to dynamic environmental changes or system mode changes is essential for ensuring open distributed real-time and embedded (DRE) system real-time QoS. This paper provides three contributions to research on the predictability of D&C for component-based open DRE systems. First, we describe how the dependency relationships among different components and their criticality levels can cause deployment order inversion of tasks, which impedes deployment predictability. Second, we describe how to minimize D&C latency of mission-critical tasks with a multi-graph dependency tracing and graph recomposition algorithm called CaDAnCE. Third, we empirically evaluate the effectiveness of CaDAnCE on a representative open DRE system case study based on NASA Earth Science Enterprise's Magnetospheric Multi-Scale (MMS) mission system. Our results show that CaDAnCE avoids deployment order inversion while incurring negligible (<1%) performance overhead, thereby significantly improving D&C predictability.

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CaDAnCE:一个关键感知的部署和配置引擎

为响应动态环境变化或系统模式变化而对组件进行可预测的部署和配置(D&C)对于确保开放式分布式实时和嵌入式(DRE)系统的实时QoS至关重要。本文对基于组件的开放式DRE系统的D&C可预测性研究做出了三方面的贡献。首先，我们描述了不同组件之间的依赖关系及其临界级别如何导致任务的部署顺序反转，从而阻碍了部署的可预测性。其次，我们描述了如何使用称为CaDAnCE的多图依赖跟踪和图重组算法来最小化任务关键型任务的D&C延迟。最后，以NASA地球科学企业磁层多尺度任务系统为例，对CaDAnCE的有效性进行了实证评估。我们的结果表明，CaDAnCE避免了部署顺序反转，同时产生了可以忽略不计的(<1%)性能开销，从而显著提高了D&C的可预测性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 11th IEEE International Symposium on Object and Component-Oriented Real-Time Distributed Computing (ISORC)

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