嵌入式系统中基于规则的硬件配置验证方法

Proceedings of the 19th International Workshop on Software and Compilers for Embedded Systems Pub Date : 2016-05-23 DOI:10.1145/2906363.2906377

Lin Li, Philipp Wagner, Ramesh Ramaswamy, A. Mayer, Thomas Wild, A. Herkersdorf

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引用次数: 1

摘要

随着多核soc复杂性的增加，出现了更多潜在的系统问题。由于引入了更多的内核和各种复杂的外设，与硬件相关的配置问题变得越来越复杂。考虑到多核编程的复杂性，咨询指导的主要来源，即用户手册，并不是确定这类问题的有效方法。不正确的硬件相关配置可能导致功能或性能问题。其中一些问题甚至很微妙，很难察觉。因此，提出了一种基于规则的验证方法，以高效可靠的方式处理硬件相关的配置问题。在此方法中应用硬件跟踪，以便在症状出现之前检测问题。该方法直接观察寄存器访问，并根据跟踪数据检测错误。只要在给定平台上运行，它就独立于应用程序，这意味着相同的方法实现可以应用于同一平台上的任何应用程序。本文已在英飞凌TC29器件上实现并演示了所提出方法的初步概念验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Rule-based Methodology for Hardware Configuration Validation in Embedded Systems

As the complexity of multicore SoCs increases, more potential system issues are arising. Hardware-related configuration issues are becoming more complicated owing to the introduction of more cores and various complex peripherals. Considering the complexity of multicore programming, consultation of the main source of guidance, i.e. the user manual, is not an efficient approach to identify such problems. Improper hardware-related configurations could lead to either functional or performance issues. Some of these issues are even subtle and hard to detect. Therefore, a rule-based validation methodology is proposed to deal with hardware-related configuration issues in an efficient and reliable way. Hardware trace is applied in this methodology to detect issues even before symptoms appear. The method directly observes the register accesses and detects bugs based on trace data. It is independent of the application as long as they are run on the given platform, which means the same method implementation could be applied to any applications on the same platform. In this paper, an initial proof-of-concept for the proposed methodology has been implemented and demonstrated on the Infineon TC29 device.

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Proceedings of the 19th International Workshop on Software and Compilers for Embedded Systems

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