Quantum assignment for QoS-aware AFDX network with deficit round robin

Proceedings of the 27th International Conference on Real-Time Networks and Systems Pub Date : 2019-11-06 DOI:10.1145/3356401.3356421

Aakash Soni, Jean-Luc Scharbarg, Jérôme Ermont

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引用次数: 3

Abstract

Avionics Full Duplex switched Ethernet (AFDX) is the de facto standard for the transmission of critical avionics flows. It is a specific switched Ethernet solution based on First-in First-out (FIFO) scheduling. Timing constraints have to be guaranteed for such critical flows. The worst-case traversal time analysis introduces some pessimism, leading to a very lightly loaded network: typically less than 10 % of the bandwidth is used. One solution to improve the utilisation of the network is to introduce Quality of Service (QoS) mechanisms. First, it can decrease worst-case delays for the most constrained avionics flows. Second less/non critical additional flows can be transmitted on the network with bounded impact on avionics ones. Deficit Round Robin (DRR) is such a QoS mechanism and it is envisioned for future avionics networks. An optimised WCTT analysis has been proposed for DRR on AFDX, based on network calculus. With DRR, the flow set is divided into classes and each class is allocated a quantum. In each round, transmissions are managed, based on these quanta. Thus delays are significantly impacted by quanta. The contribution of this paper is to propose an efficient quantum assignment for a set of critical avionics flow classes and at most one additional class with less/non critical flows.

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具有qos感知的缺轮循AFDX网络的量子分配

航空电子全双工交换以太网(AFDX)是关键航空电子流传输的事实上的标准。它是一种基于先进先出(FIFO)调度的特殊交换以太网解决方案。对于这样的关键流，必须保证时间约束。最坏情况遍历时间分析引入了一些悲观情绪，导致网络负载非常轻:通常使用的带宽不到10%。提高网络利用率的一个解决方案是引入服务质量(QoS)机制。首先，它可以减少最受限制的航电流量的最坏情况下的延误。非临界附加流可以在网络上传输，但对航电系统的影响有限。赤字轮询(DRR)就是这样一种QoS机制，它被设想用于未来的航空电子网络。提出了一种基于网络演算的优化WCTT分析方法。使用DRR，将流集划分为类，并为每个类分配一个量子。在每一轮中，传输都是基于这些量子进行管理的。因此，延迟受到量子量的显著影响。本文的贡献在于提出了一种有效的量子分配方法，适用于一组关键航电流类和至多一个具有较少/非关键流的附加类。

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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Proceedings of the 27th International Conference on Real-Time Networks and Systems

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