在多核平台上结合数据流应用和实时任务集

H. Ali, B. Akesson, L. M. Pinho
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引用次数: 1

摘要

未来的实时嵌入式系统将越来越多地结合具有时间约束的混合应用程序模型,运行在相同的多核平台上。这些应用程序模型是具有时间约束的数据流应用程序和建模为独立任意截止日期任务的传统实时应用程序。这些系统需要保证所有正在运行的应用程序都能满足它们的时间限制。此外,为了在设计方面具有成本效益,它们需要有效的映射策略,以最大限度地利用系统资源来降低总体成本。这项工作提出了一种在同一多核平台上集成具有时序要求的混合应用模型(数据流和传统实时应用)的方法。它包括三个主要算法:1)基于松弛的合并算法,2)时序参数提取算法,3)通信感知映射算法。总之,这三种算法在允许嵌入式实时系统中混合应用模型的映射和调度方面发挥了作用。完整的方法和提出的三种算法通过证明和实验评估得到了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Combining Dataflow Applications and Real-time Task Sets on Multi-core Platforms
Future real-time embedded systems will increasingly incorporate mixed application models with timing constraints running on the same multi-core platform. These application models are dataflow applications with timing constraints and traditional real-time applications modelled as independent arbitrary-deadline tasks. These systems require guarantees that all running applications execute satisfying their timing constraints. Also, to be cost-efficient in terms of design, they require efficient mapping strategies that maximize the use of system resources to reduce the overall cost. This work proposes an approach to integrate mixed application models (dataflow and traditional real-time applications) with timing requirements on the same multi-core platform. It comprises three main algorithms: 1) Slack-Based Merging, 2) Timing Parameter Extraction, and 3) Communication-Aware Mapping. Together, these three algorithms play a part in allowing mapping and scheduling of mixed application models in embedded real-time systems. The complete approach and the three algorithms presented have been validated through proofs and experimental evaluation.
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