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引用次数: 1
摘要
本文提出了一种同步调度接口的代数,它将布尔代数的逻辑和功能行为的表达性与用于量化同步接口非功能方面的最小-最大-加算法相结合。接口理论起源于直觉模态逻辑的可实现性解释(也称为curry - howard -同构或命题即类型原则)。由此产生的接口类型代数旨在为指定最坏调度边界的类型定向和组合分析提供一般设置。它涵盖了并发、多处理或多线程执行下的同步控制流,并允许对支持各种抽象的分析的精确性和覆盖范围进行精确的陈述。本文以同步规划中的网络流问题、最短路径问题、任务调度问题和最坏反应时间问题为例,说明了代数的可表达性。
In this paper we propose an algebra of synchronous scheduling interfaces which combines the expressiveness of Boolean algebra for logical and functional behaviour with the min-max-plus arithmetic for quantifying the non-functional aspects of synchronous interfaces. The interface theory arises from a realisability interpretation of intuitionistic modal logic (also known as Curry-Howard-Isomorphism or propositions-as-types principle). The resulting algebra of interface types aims to provide a general setting for specifying type-directed and compositional analyses of worst-case scheduling bounds. It covers synchronous control flow under concurrent, multi-processing or multi-threading execution and permits precise statements about exactness and coverage of the analyses supporting a variety of abstractions. The paper illustrates the expressiveness of the algebra by way of some examples taken from network flow problems, shortest-path, task scheduling and worst-case reaction times in synchronous programming.
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