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Title:Static analysis for architecture-implementation conformance in robust embedded systems
Author(s):Kowshik, Sumant J.
Doctoral Committee Chair(s):Sha, Lui R.
Doctoral Committee Member(s):Kumar, P.R.; Roşu, Grigore; Adve, Vikram S.
Department / Program:Computer Science
Discipline:Computer Science
Degree Granting Institution:University of Illinois at Urbana-Champaign
Subject(s):computer science
embedded systems
computer architecture
Abstract:Embedded systems have proliferated into diverse and complex critical applications with stringent reliability and timeliness requirements. Guaranteeing reliability in the presence of increasing complexity of embedded systems have necessitated a multitude of architectural designs including integrated modular architectures and architectural designs for robustness by minimizing inter-component failure dependencies. In the software development cycle, the system integration architect occupies a key position between the domain-specialist, designing the algorithms and the high-level logical design, and the individual software component developers. In essence, the system architect refines the logical design into concrete software components, while facilitating high-level properties such as timing, dependency management, and fault-tolerance. Existing tools for the systems architect include architecture description languages and model-checking tools, which specify and verify the architectural designs. The primary contribution of this dissertation is to design a system to analyze individual components and guarantee high-level architectural properties in the system using static analysis. In particular, we verify two key properties: (a) memory isolation and (b) safe value propagation paths from non-core to core components communicating using shared memory, safe exchange of data between components of different criticalities through run-time monitoring. Our solution combines language and library usage restrictions on the C language with a suite of compiler analyses to statically guarantee these properties. In doing so, we incur minimal (often zero) run-time overhead and do not require garbage collection, making our approach very attractive for embedded systems. We have examined different critical systems and embedded benchmarks and shown that our language restrictions are expressive enough for embedded systems while enabling statically guaranteeing high-level architectural properties. Finally, we show that we can verify other related architectural properties by extending our static analysis techniques. (Abstract shortened by UMI.)
Issue Date:2006
Genre:Dissertation / Thesis
Rights Information:Copyright 2006 Sumant Jagadish Kowshik
Date Available in IDEALS:2013-05-21

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