用于汽车多核处理器应用程序时序分析的自动化框架

Davide Compagnin, T. Vardanega
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摘要

影响多核处理器的核间干扰使嵌入式应用的时序分析变得非常复杂。软件程序在访问硬件共享资源时产生的执行时间损失很难估计,因为它既取决于资源仲裁策略,也取决于共同运行程序的数量和活动。产生了一个有趣的恶性循环:必须知道感兴趣的应用程序的执行时行为,以确定其对处理器核心的最佳分配;然而,这个决策决定了实际的共同运行者的集合,这反过来又影响了应用程序所遭受的内核间干扰,从而影响了它的执行时间行为。这项工作提出了一个框架,该框架有助于在存在核间干扰的情况下对应用程序进行时序分析,并通过提供一套旨在访问硬件共享资源以产生细粒度受控干扰的合成协同运行程序来解决所引用的循环依赖。该框架专门针对英飞凌为汽车领域设计的Aurix Tricore系列处理器,并包括一个高度集成的工具链,用于构建、执行和跟踪应用程序。工具链包括一个定制版本的Erika Enterprise,修改后在运行时显示可时间组合的行为,以及RT-Druid构建环境。本文包括对现实世界汽车应用程序的时序行为的评估,该应用程序经过调整以适应所选择的运行时目标,并在不同程度的核间干扰下进行了试验。
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An automated framework for the timing analysis of applications for an automotive multicore processor
The inter-core interference that affects multicore processors highly complicates the timing analysis of embedded applications. The contribution of the execution-time penalty that software programs incur on access to hardware shared resources is hard to estimate, as it depends on both the resource arbitration policy and the quantity and activity of co-runners. An interesting vicious circle arises: the execution-time behavior of the application of interest must be known to determine its best allocation to a processor core; this decision however determines the actual set of co-runners, which in turns effects the inter-core interference suffered by the application of interest and consequently its execution-time behavior. This work presents a framework that aids the timing analysis of applications in presence of inter-core interference and addresses the cited circular dependency by providing a suite of synthetic co-runners designed to access hardware shared resources to produce fine-grained controlled interference. The framework specifically targets the Aurix Tricore family of processors designed by Infineon for the automotive domain, and includes a highly integrated toolchain to build, execute and trace applications. The toolchain includes a tailored version of Erika Enterprise, modified to exhibit time-composable behavior at run time, and the RT-Druid build environment. The paper includes an evaluation of the timing behavior of a real-world automotive application, adapted to fit the run-time target of choice and trialed under different levels of inter-core interference.
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