We benchmark Data Centre topologies under SDM and WDM transport in terms of network capacity, utilization, blocking probability, cost and power consumption. SDM offers cost and power benefits than WDM while Spine-Leaf demonstrates all-round best performance among all topologies
Data centers are crucial to the growth of cloud computing. Next-generation data center networks (DCN...
The capacity benefits of flexi-grid optical networks are limited by the finite amount of bandwidth o...
Spatial division multiplexing (SDM) by employing few-mode fiber or multi-core fiber is expected to e...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
The rapid growth of traffic inside data centers caused by the increasing adoption of cloud services ...
Attributing to the increasing adoption of cloud services, video services and associated machine lear...
We compare the networking merit of two possible multiplexing techniques on top of wavelength divisio...
With the continuously growing popularity of cloud services, the traffic volume inside the\ua0data\ua...
Spatial division multiplexing (SDM) represents a possible solution to face the continuous traffic gr...
Modular design based on spatial division-multiplexing switches is a promising way to improve the cap...
Modular design has recently emerged as an efficient solution to build large data center (DC) facilit...
Both spatial-division multiplexing (SDM) and band-division multiplexing (BDM) have been proposed to ...
We compare the networking merit of multiple bands - U-to-O band - by exploiting the installed cables...
Space division multiplexing (SDM) has been proposed as the ultimate solution to address the capacity...
Space division multiplexing (SDM) has been proposed to cost-effectively increase the capacity of opt...
Data centers are crucial to the growth of cloud computing. Next-generation data center networks (DCN...
The capacity benefits of flexi-grid optical networks are limited by the finite amount of bandwidth o...
Spatial division multiplexing (SDM) by employing few-mode fiber or multi-core fiber is expected to e...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
The rapid growth of traffic inside data centers caused by the increasing adoption of cloud services ...
Attributing to the increasing adoption of cloud services, video services and associated machine lear...
We compare the networking merit of two possible multiplexing techniques on top of wavelength divisio...
With the continuously growing popularity of cloud services, the traffic volume inside the\ua0data\ua...
Spatial division multiplexing (SDM) represents a possible solution to face the continuous traffic gr...
Modular design based on spatial division-multiplexing switches is a promising way to improve the cap...
Modular design has recently emerged as an efficient solution to build large data center (DC) facilit...
Both spatial-division multiplexing (SDM) and band-division multiplexing (BDM) have been proposed to ...
We compare the networking merit of multiple bands - U-to-O band - by exploiting the installed cables...
Space division multiplexing (SDM) has been proposed as the ultimate solution to address the capacity...
Space division multiplexing (SDM) has been proposed to cost-effectively increase the capacity of opt...
Data centers are crucial to the growth of cloud computing. Next-generation data center networks (DCN...
The capacity benefits of flexi-grid optical networks are limited by the finite amount of bandwidth o...
Spatial division multiplexing (SDM) by employing few-mode fiber or multi-core fiber is expected to e...