时间可预测多核处理器中基于状态的通信

Proceedings of the 24th International Conference on Real-Time Networks and Systems Pub Date : 2016-10-19 DOI:10.1145/2997465.2997480

R. B. Sorensen, Martin Schoeberl, J. Sparsø

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引用次数: 0

摘要

一些实时系统使用一种称为基于状态或基于样本的通信的任务到任务通信形式，它在通信任务之间不强加任何流控制。这个概念类似于共享变量，读取器可以多次读取相同的值，也可以根本不读取给定的值。本文通过五种算法探讨了基于片上网络的多核平台中基于状态的通信的可预测时间实现。通过对实现算法的分析，一个核心的通信任务可以独立于其他核心的任务进行调度。假设一个特定的时间可预测的多核处理器，我们评估了五种算法的读和写原语如何对通信任务的最坏情况执行时间做出贡献。这五种算法中的每一种都有特定的功能，使它们适用于不同的场景。

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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State-based Communication on Time-predictable Multicore Processors

Some real-time systems use a form of task-to-task communication called state-based or sample-based communication that does not impose any flow control among the communicating tasks. The concept is similar to a shared variable, where a reader may read the same value multiple times or may not read a given value at all. This paper explores time-predictable implementations of state-based communication in network-on-chip based multicore platforms through five algorithms. With the presented analysis of the implemented algorithms, the communicating tasks of one core can be scheduled independently of tasks on other cores. Assuming a specific time-predictable multicore processor, we evaluate how the read and write primitives of the five algorithms contribute to the worst-case execution time of the communicating tasks. Each of the five algorithms has specific capabilities that make them suitable for different scenarios.

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Proceedings of the 24th International Conference on Real-Time Networks and Systems

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