Modular design based on spatial division-multiplexing switches is a promising way to improve the capacity and reduce the cabling complexity of data center networks. However, due to the coexistence of mice and elephant flows, in modular data center networks a trade-off between the blocking probability and total throughput arises. In fact, blocking elephant flows would lead to a relevant penalty on the throughput but a small penalty on the blocking probability. In this paper, we investigate the relation between the blocking and throughput in modular data center networks based on optical spatial division multiplexing. We combine the two metrics linearly by a weight factor that prioritizes them relatively. To solve the resource allocation probl...
This thesis presents advanced optical connectivity solutions for next-generation data centers, spann...
Current data centers networks rely on electronic switching and point-to-point interconnects.When con...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
Modular design has recently emerged as an efficient solution to build large data center (DC) facilit...
We benchmark Data Centre topologies under SDM and WDM transport in terms of network capacity, utiliz...
This paper aims to quantitatively measure the impact of different data centers networking topologies...
In this research, we look at how different network topologies affect the energy consumption of modul...
We propose and evaluate four optical interconnect architectures based on spatial division multiplexi...
A number of new architectures for data centre networks employing reconfigurable, SDN controlled, all...
Attributing to the increasing adoption of cloud services, video services and associated machine lear...
With the continuously growing popularity of cloud services, the traffic volume inside the\ua0data\ua...
Innovations in optical communication are expected to transform the landscape of global communication...
We compare the networking merit of two possible multiplexing techniques on top of wavelength divisio...
A datacenter hosts hundreds of thousands of servers and a huge amount of bandwidth is required to ac...
This thesis presents advanced optical connectivity solutions for next-generation data centers, spann...
Current data centers networks rely on electronic switching and point-to-point interconnects.When con...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
Modular design has recently emerged as an efficient solution to build large data center (DC) facilit...
We benchmark Data Centre topologies under SDM and WDM transport in terms of network capacity, utiliz...
This paper aims to quantitatively measure the impact of different data centers networking topologies...
In this research, we look at how different network topologies affect the energy consumption of modul...
We propose and evaluate four optical interconnect architectures based on spatial division multiplexi...
A number of new architectures for data centre networks employing reconfigurable, SDN controlled, all...
Attributing to the increasing adoption of cloud services, video services and associated machine lear...
With the continuously growing popularity of cloud services, the traffic volume inside the\ua0data\ua...
Innovations in optical communication are expected to transform the landscape of global communication...
We compare the networking merit of two possible multiplexing techniques on top of wavelength divisio...
A datacenter hosts hundreds of thousands of servers and a huge amount of bandwidth is required to ac...
This thesis presents advanced optical connectivity solutions for next-generation data centers, spann...
Current data centers networks rely on electronic switching and point-to-point interconnects.When con...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...