嵌入式系统非侵入式运行时监控的系统级观察框架

Jong Chul Lee
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引用次数: 11

摘要

随着嵌入式系统复杂性的迅速增加,传统的分析和调试方法在监控、分析和调试各种软件和硬件组件的复杂交互方面遇到了重大挑战。这种情况在原位调试和验证中进一步恶化,因为需要物理访问的传统调试和跟踪接口是不可用的、不可行的或成本过高的。在本文中,我们提出了一个系统级观察框架,该框架为动态监测和分析嵌入式系统中深度集成的硬件和软件组件提供了最小侵入性的方法。系统级观察框架通过插入用于检测硬件核心内设计人员指定的事件的附加逻辑来监视硬件和软件事件,以便在运行时观察跨硬件和软件边界的复杂交互,并为监视软件应用程序的复杂执行行为提供可见性,而不会影响系统执行。
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System-Level Observation Framework for Non-Intrusive Runtime Monitoring of Embedded Systems
As the complexity of embedded systems rapidly increases, the use of traditional analysis and debug methods encounters significant challenges in monitoring, analyzing, and debugging the complex interactions of various software and hardware components. This situation is further exacerbated for in-situ debugging and verification in which traditional debug and trace interfaces that require physical access are unavailable, infeasible, or cost prohibitive. In this article, we present a system-level observation framework that provides minimally intrusive methods for dynamically monitoring and analyzing deeply integrated hardware and software components within embedded systems. The system-level observation framework monitors hardware and software events by inserting additional logic for detecting designer-specified events within hardware cores to observe complex interaction across hardware and software boundaries at runtime, and provides visibility for monitoring complex execution behavior of software applications without affecting the system execution.
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