基于自适应激活事件的分布式汽车系统端到端延迟优化

M. Natale, Wei Zheng, C. Pinello, P. Giusto, A. Sangiovanni-Vincentelli
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引用次数: 37

摘要

当系统的体系结构已知并且通信和同步机制已经定义时,可调度性理论为分析分布式计算中的最坏情况延迟提供了支持。然而,在复杂汽车系统的设计中,可调度性分析的巨大好处可能来自于它在探索能够最好地支持目标应用程序的软件体系结构配置方面的帮助。我们提出了一种优化算法,该算法利用纯周期性和数据驱动激活模型之间的权衡来满足分布式车辆功能的延迟要求。我们在一个复杂的汽车结构上证明了它的有效性
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimizing End-to-End Latencies by Adaptation of the Activation Events in Distributed Automotive Systems
Schedulability theory provides support for the analysis of the worst case latencies in distributed computations when the architecture of the system is known and the communication and synchronization mechanisms have been defined. In the design of complex automotive systems, however, a great benefit of schedulability analysis may come from its use as an aid in the exploration of the software architecture configurations that can best support the target application. We present an optimization algorithm that leverages the trade-offs between the purely periodic and the data-driven activation models to meet the latency requirements of distributed vehicle functions. We demonstrate its effectiveness on a complex automotive architecture
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