Abstract
Optical switching techniques featuring the fast and large capacity have the potential to enable low latency and high throughput optical data center networks (DCN) to afford the rapid increasing of traffic-boosted applications. Flexibility of the DCN is of key importance to provide adaptive and dynamic bandwidth to handle the variable traffic patterns generated by the heterogeneous applications while optimizing the network resources. Aiming at providing the flexible bandwidth for optical DCNs, we propose and experimentally investigate a software-defined networking (SDN) enabled reconfigurable optical DCN architecture based on novel optical top of rack (OToR) switch exploiting photonic-integrated wavelength selective switch. Experimental results show that the optical bandwidth per link can be automatically reallocated under the management of the deployed SDN control plane according to the variable traffic patterns. With respect to the network with inflexible interconnections, the average packet loss of the reconfigurable DCN decreases 1 order of magnitude and the server-to-server latency performance improves of 42.2%. Scalability investigation illustrates limited (11.7%) performance degradation as the reconfigurable network scale from 2560 to 40960 servers. Both the numerical and experimental assessments validate the proposed DCN with reconfigurable bandwidth feature and lower latency variations with respect to the inflexible DCNs.
Highlights
As the hubs of the content-centric Internet, data centers (DCs) power the traffic-boosting applications, such as the cloud computing, Internet of Things (IoT) and big data, by hosting hundreds of thousands of servers [1,2]
Aiming at providing the flexible bandwidth for optical data center networks (DCN), we propose and experimentally investigate a softwaredefined networking (SDN) enabled reconfigurable optical DCN architecture based on novel optical top of rack (OToR) switch exploiting photonic-integrated wavelength selective switch
We propose and experimentally assess a software-defined network (SDN) controlled flexible optical DCN architecture based on semiconductor optical amplifiers (SOAs)-based optical switches and a novel reconfigurable optical top of racks (ToRs) (OToR) employing a 40-λ 1×2 photonic integrated wavelength selective switch (PIC-wavelength-selective switches (WSSs))
Summary
As the hubs of the content-centric Internet, data centers (DCs) power the traffic-boosting applications, such as the cloud computing, Internet of Things (IoT) and big data, by hosting hundreds of thousands of servers [1,2]. Based on the collected network traffic statistics of data plane, the deployed TRXs per link and the PIC-WSS at OToR can be automatically and elastically configured by the SDN control plane to provide the dynamic optical bandwidth in real-time. This enables an on-demand optical bandwidth allocation mechanism between OToRs links to be adapted to the dynamic traffic matrix generated by the heterogeneous applications. Based on experimental parameters, the numerical investigation on the OMNeT++ simulation model is carried out to investigate the scalability of the reconfigurable DCN
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