微体系结构中低级并行性的公理化

MICRO 17 Pub Date : 1984-12-01 DOI:10.1145/800016.808240

W. Damm

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引用次数: 6

摘要

本文提出了用于水平计算机体系结构验证的通用语法导向证明系统的核心。该系统基于公理体系结构描述语言AADL，该语言结合了时钟微体系结构的协调模型。对于主机体系结构的给定描述a，我们将展示如何公理化a的微操作，并提供处理水平体系结构固有的低级并行性的强大证明规则。它们允许对基于S*的依赖于a的高级微编程语言编写的微程序的定时行为和动态冲突进行完整的公理化处理。

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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An axiomatization of low-level parallelism in microarchitectures

This paper presents the heart of a universal syntax-directed proof system for the verification of horizontal computer architectures. The system is based on the axiomatic architecture description language AADL, which incorporates a comcise model of clocked microarchitectures. For a given description A of a host architecture, we show how to axiomatize A's microoperations and present powerful proof-rules dealing with the inherent low-level parallelism of horizontal architectures. They allow for a complete axiomatic treatment of the timing behaviour and dynamic conflicts of microprograms written in an A-dependent high-level microprogramming language based on S*.

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MICRO 17

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