千兆以太网上的通信性能

Conference Proceedings of the 2000 IEEE International Performance, Computing, and Communications Conference (Cat. No.00CH37086) Pub Date : 2000-02-20 DOI:10.1109/PCCC.2000.830317

P. Farrell, H. Ong

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引用次数: 15

摘要

集群计算对通信网络的要求很高。千兆以太网技术可以提供满足这些需求所需的带宽。然而，它也将通信瓶颈从网络媒体转移到协议处理。本文概述了千兆以太网技术，研究了千兆以太网端到端的通信带宽和时延。使用Net Pipe收集性能图，清楚地显示了千兆以太网上TCP/IP的性能特征。这表明了许多因素的影响，如处理器速度、网络适配器、Linux内核和设备驱动程序的版本，以及TCP/IP调优对两台Pentium 11/350 pc之间千兆以太网性能的影响。重要的结论包括2.1.121及以后的开发内核和Linux的2.2x生产内核的显著优势，以及将MTU提高到以太网标准1500以上的能力可以显著提高可实现的吞吐量。

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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Communication performance over a gigabit Ethernet network

Cluster computing imposes heavy demands on the communication network. Gigabit Ethernet technology can provide the required bandwidth to meet these demands. However, it has also shifted the communication bottleneck from network media to protocol processing. In this paper, we present an overview of Gigabit Ethernet technology and study the end-to-end Gigabit Ethernet communication bandwidth and latency. Performance graphs are collected using Net Pipe which clearly show the performance characteristics of TCP/IP over Gigabit Ethernet. These indicate the impact of a number of factors such as processor speeds, network adaptors, versions of the Linux Kernel and device drivers, and TCP/IP tuning on the performance of Gigabit Ethernet between two Pentium 11/350 PCs. Among the important conclusions are the marked superiority of the 2.1.121 and later development kernels and 2.2x production kernels of Linux and that the ability to increase the MTU beyond the Ethernet standard of 1500 could significantly enhance the throughput attainable.

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Conference Proceedings of the 2000 IEEE International Performance, Computing, and Communications Conference (Cat. No.00CH37086)

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