CAN FD: Performance reality

2017 3rd International Conference on Computational Intelligence & Communication Technology (CICT) Pub Date : 2017-02-01 DOI:10.1109/CIACT.2017.7977354

A. Sinha, Shubham Saurabh

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引用次数: 4

Abstract

Automotive network is no more limited to slow speed interfaces which could fulfill its requirement with kbps speed. Increasing bandwidth requirement has posed challenge to designers to come-up with solutions which could help network run at desired high speed. Classic CAN (Controller Area Network) was conceptualized with the very same purpose but its limited speed (up to 1Mbps) became unable to serve the automotive network because of its increased appetite for bandwidth. That's where CAN FD (CAN with flexible data rate) took birth. CAN FD improved the classic CAN by incorporating two things: 1. Higher bit rate support 2. Larger payload support. By introducing these two features it was assumed that CAN FD could accommodate bandwidth up to 8Mbps (>> 1Mbps of Classic CAN) but is it really true? This is what this paper is going to answer. The paper talks about the impact of increasing bit rate or payload on overall CAN packet performance. It also throws some light on CAN FD performance with respect to different SOCs. It also describes how any other system level module could be utilized to check the overall performance of CAN FD.

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FD:表现现实

汽车网络不再局限于低速接口，以kbps的速度就可以满足其需求。不断增长的带宽需求对设计人员提出了挑战，要求他们提出能够帮助网络以所需的高速运行的解决方案。经典CAN(控制器区域网络)的概念与此目的完全相同，但其有限的速度(高达1Mbps)由于对带宽的需求增加而无法服务于汽车网络。这就是CAN FD(具有灵活数据速率的CAN)诞生的地方。CAN FD通过结合两件事改进了经典CAN:支持更高的比特率更大的有效载荷支持。通过引入这两个特性，假设CAN FD可以容纳高达8Mbps的带宽(>> 1Mbps的经典CAN)，但这是真的吗?这就是这篇论文要回答的问题。本文讨论了增加比特率或有效载荷对CAN包整体性能的影响。它还对不同soc的CAN FD性能进行了一些说明。它还描述了如何使用任何其他系统级模块来检查CAN FD的整体性能。

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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2017 3rd International Conference on Computational Intelligence & Communication Technology (CICT)

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