数据中心中面向光互联的流量识别与调度研究

doi:10.11959/j.issn.1000-436x.2018161

Abstract

Abstract:

In order to solve the data center link congestion problem,based on the characteristics of the flow distribution and flow types,a flow identification and scheduling scheme based on optical interconnect structure,named HCFD (host-controller flow detection),was proposed to identify the elephant flow which has a large impact on the network performance,and use the SDN controller to make forward strategy,and schedule the network traffic reasonably.The implementation of the scheme was to use the Netfilter framework in Linux kernel protocol on the host side to mark the flow that exceeds the threshold amount.Then,the classification model was used in the controller side to classify the marked flow.Finally,the appropriate forwarding strategy was developed based on the above results.With the advantage of the photoelectric network,mechanisms of flow depth fusion and switching could be realized.The scheme which integrates the advantage of the existing research results,was expected to identify elephant flow more accurately and comprehensively.It can effectively alleviate the network congestion,make full use of network bandwidth,reduce end-to-end delay and packet loss rate.

Key words: optical interconnection architecture, traffic identification, software define network, Linux kernel

CLC Number:

TP393

Bingli GUO,Ning ZHAO,Zhiwen ZHU,Fan NING,Shanguo HUANG. Research on traffic identification and scheduling based on optical interconnection architecture in data center[J]. Journal on Communications, 2018, 39(9): 122-128.

Figures/Tables 14

参数	功能	数值
$H_{t o t a l} / 台$	主机总数	128
$H_{p e r /} / 台$	每台交换机连接的主机数	8
S/台	交换机总数	16
Flow/条	每个终端每秒产生的新流量数目	10
T/s	持续时间	60

References 12

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类别	相关技术	准确度	耗时	开销
基于交换机基于数据周期取样轮询	Hedera,Helios,HSP	高	一般	高
基于交换机基于数据周期取样抽样	Sflow	低	高	低
基于交换机基于数据全统计	FlowRader,DevFlow	高	高	一般
基于交换机基于特征标记识别	EiffiEye	低	一般	高
基于交换机基于特征流分类	文献[3,4]	高	一般	一般
基于终端基于数据无虚拟机应用	Mahout,MicroTE	高	一般	一般
基于终端基于数据有虚拟机应用	EMC2,VirtMonE	高	一般	一般

Research on traffic identification and scheduling based on optical interconnection architecture in data center

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