基于Windows Server的ipv4-v6过渡机制与ipv4-v6网络性能评价  

IPv4-v6 Transition Mechanisms and Ipv4-v6 Network Performance Evaluation Based on Windows Server

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作  者:张韧志[1] 汤震[1] 

机构地区:[1]黄淮学院信息工程学院,河南驻马店463000

出  处:《计算机测量与控制》2013年第4期983-986,共4页Computer Measurement &Control

基  金:国家自然科学基金项目(60180109)

摘  要:随着第四代IP地址的(IPv4)用尽,开发第六代IP地址(IPv6)这种新型的互联网协议,在很大程度上提供更多的网络地址和主机地址;由于IP地址分配的复杂性和巨大性,从当前地址过渡到新一代地址显然有些限制;文中介绍ipv6到ipv4隧道这两种过渡机制,并对它们各自性能做了性能评价;这两种机制均在两种不同的Windows Server操作系统上做过实验;性能相关的矩阵如吞吐量、延时、时基误差以及过渡性终结点的CPU使用情况等均做了检测;通过实验结果表明这两种机制的TCP/UDP吞吐量和时基误差值相同,但延时和CPU读数依据不同操作系统与所选过渡机制有一定的差别。With the fourth generation of 1P addresses (IPv4) is used up, the development of this new sixth-generation IP address (IPv6) Internet Protocol, provides network and host addresses to a large extent. However, the current address transition to a new generation of address appears to be some limit, the main is because of the complexity of IP address assignment and huge. Therefore, develop its advanta-ges and disadvantages of various transition mechanisms. Ipv6 to ipv4 tunnel two transition mechanism described in this article, and their re-spective performance to do a performance evaluation. These two mechanisms are experiments done on two different Windows Server operating system. Performance-related matrix such as throughput, delay, time-base error and the end of the transitional point, CPU usage, etc. to do the testing. Experimental results show that these two mechanisms of TCP / UDP throughput and the same time base error, but the laten-cy and CPU readings vary greatly because of the selected transition mechanism and the operating system, different.

关 键 词:IPV4 IPV6 过渡机制 配置隧道 性能评价 WINDOWS操作系统 

分 类 号:TP301.6[自动化与计算机技术—计算机系统结构]

 

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