Design space exploration for deterministic ethernet-based architecture of automotive systems

2016 IEEE International High Level Design Validation and Test Workshop (HLDVT) Pub Date : 2016-10-01 DOI:10.1109/HLDVT.2016.7748255

Prachi Joshi, G. VedahariNarasimhan, Haibo Zeng, S. Shukla, Chung-Wei Lin, Huafeng Yu

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Abstract

Time Triggered Ethernet (TTE) is a time-triggered network technology with large bandwidth and services for deterministic, safety-relevant communication. Hence, it has gained increasing attention from domains such as aerospace, automotive and industrial applications. In this work, we aim to solve the problem of task mapping and communication scheduling in automotive design. The system model is a dataflow task communication model mapped to a target architecture based on TIE. The design variables are the mapping of tasks onto the end systems in the architecture and the scheduling of all frames. The constraints include the schedulability of tasks and signals, as well as the latency constraints of the critical paths as specified by the designer. It can be shown that the problem is NP· hard. Therefore, we develop a heuristic to solve this problem. The heuristic contains four steps and all of them (except scheduling) are formulated using Integer Linear Programming (ILP). We present experimental results on an industrial benchmark and two synthetic benchmarks which show the efficiency and scalability of our approach.

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基于确定性网络的汽车系统体系结构设计空间探索

时间触发以太网(TTE)是一种时间触发网络技术，具有大带宽和确定性安全相关通信服务。因此，它越来越受到航空航天、汽车和工业应用等领域的关注。本文旨在解决汽车设计中的任务映射和通信调度问题。系统模型是映射到基于TIE的目标体系结构的数据流任务通信模型。设计变量是将任务映射到体系结构中的终端系统以及对所有框架的调度。这些约束包括任务和信号的可调度性，以及设计者指定的关键路径的延迟约束。可以证明这个问题是NP·难的。因此，我们开发了一种启发式方法来解决这个问题。该启发式算法包含四个步骤，除调度步骤外，其余步骤均采用整数线性规划(ILP)来表示。我们给出了一个工业基准和两个综合基准的实验结果，证明了我们的方法的效率和可扩展性。

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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2016 IEEE International High Level Design Validation and Test Workshop (HLDVT)

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