Enhanced Ethernet for Data Center: Reliable, Channelized and Robust

2007 15th IEEE Workshop on Local & Metropolitan Area Networks Pub Date : 2007-06-10 DOI:10.1109/LANMAN.2007.4295977

M. Wadekar

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引用次数: 21

Abstract

Data Centers today deploy multiple fabrics for LAN, SAN and IPC traffic. This introduces significant cost, complexity and management challenges. Hence there is strong demand for consolidating these multiple fabrics. Ethernet is default fabric used primarily for LAN traffic and it is low-cost, well-known, widely available, and broadly compatible. So, it makes an ideal candidate for such IO consolidation. However, current Ethernet suffers from certain deficiencies that need to be addressed. Legacy Ethernet suffers from 3 main issues (a) Lack of congestion management mechanism -which results in packet drops when network is congested. This also results in unpredictable latencies for the traffic through these congested networks, (b) No standard mechanism for traffic differentiation on the link which will protect all the traffic types on consolidated link. Only mechanism available is 802. lp strict prioritization without any bandwidth assurance, (c) Poor utilization of available bandwidth in the network. Spanning Tree Protocol tends to remove links that can cause loops in the network. This results in lower bisectional bandwidth. Underlying Layer 2 protocols do not allow any multipathing techniques that are available in other technologies like Fiber Channel, Infiniband etc. This paper presents a framework of solution that includes multiple enhancements to Ethernet network -that will improve legacy Ethernet significantly for Data Center deployment. Some of these enhancements are being pursued in IEEE and IETF for standardization. IEEE 802.1Qau Task Force is focusing on improving congestion management capabilities of Ethernet IEEE 802.1Qat and IETF-TRILL is focusing on improving bisectional bandwidth by allowing L2 multipathing capabilities for complex and large DC deployments. Other efforts include mechanisms for better traffic differentiation and improved link level flow control for data center -Ethernet. This paper will elaborate more on congestion management related work.

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数据中心增强型以太网:可靠、信道化和鲁棒性

今天的数据中心为LAN、SAN和IPC流量部署了多种结构。这带来了巨大的成本、复杂性和管理挑战。因此，整合这些多种结构的需求非常强烈。以太网是主要用于LAN通信的默认结构，它成本低、众所周知、广泛可用且广泛兼容。因此，它是此类IO整合的理想候选者。然而，当前的以太网存在一些需要解决的缺陷。传统以太网有3个主要问题(a)缺乏拥塞管理机制——这导致网络拥塞时丢包。这也导致通过这些拥塞网络的流量出现不可预测的延迟，(b)链路上没有标准的流量区分机制来保护合并链路上的所有流量类型。唯一可用的机制是802。lp严格的优先级而没有任何带宽保证;(c)网络可用带宽利用率差。生成树协议倾向于去除网络中可能产生环路的链路。这导致较低的对分带宽。底层第2层协议不允许在其他技术(如光纤通道、Infiniband等)中可用的任何多路径技术。本文提出了一个解决方案框架，其中包括对以太网的多种增强，这将显著改善数据中心部署的传统以太网。其中一些增强功能正在IEEE和IETF中进行标准化。IEEE 802.1Qau任务组专注于改善以太网的拥塞管理能力，IEEE 802.1Qat和IETF-TRILL则专注于通过允许L2多路径功能来改善复杂和大型数据中心部署的对分带宽。其他工作包括更好的流量区分机制和改进的数据中心-以太网链路级流量控制。本文将详细阐述拥塞管理的相关工作。

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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2007 15th IEEE Workshop on Local & Metropolitan Area Networks

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