Suitable composable data center networks (DCNs) are essential to support the disaggregation of compute components in highly efficient next generation data centers (DCs). However, designing such composable DCNs can be challenging. A composable DCN that adopts a full mesh backplane between disaggregated compute components within a rack and employs dedicated interfaces on each point-to-point link is wasteful and expensive. In this paper, we propose and describe two (i.e., electrical, and electrical-optical) variants of a network for composable DC (NetCoD). NetCoD adopts a targeted design to reduce the number of transceivers required when a mesh physical backplane is deployed between disaggregated compute components in the same rack. The target...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
Virtual Data Centre (VDC) allocation requires the provisioning of both computing and network resourc...
Most datacenter network designs overwhelmingly use expensive and power-consuming electronic switches...
Suitable composable data center networks (DCNs) are essential to support the disaggregation of compu...
There is a proliferation of the number of operational data centres (DCs) across the globe to meet pr...
This paper evaluates the optimal scale of datacentre (DC) resource disaggregation for composable DC ...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
In this research, we look at how different network topologies affect the energy consumption of modul...
Disaggregated data centers (DCs) can offer high flexibility for resource allocation; hence, their re...
Data Centers have evolved from mainframe systems and enterprise networks into sophisticated networks...
This paper proposes a passive optical backplane as a new network topology for composable computing i...
Present-day datacenter networks (DCNs) are designed to provide full-bisection bandwidth in order to ...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
Virtual Data Centre (VDC) allocation requires the provisioning of both computing and network resourc...
Most datacenter network designs overwhelmingly use expensive and power-consuming electronic switches...
Suitable composable data center networks (DCNs) are essential to support the disaggregation of compu...
There is a proliferation of the number of operational data centres (DCs) across the globe to meet pr...
This paper evaluates the optimal scale of datacentre (DC) resource disaggregation for composable DC ...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
Aiming to solve the low utilization and high operational cost in current data centers and the divers...
In this research, we look at how different network topologies affect the energy consumption of modul...
Disaggregated data centers (DCs) can offer high flexibility for resource allocation; hence, their re...
Data Centers have evolved from mainframe systems and enterprise networks into sophisticated networks...
This paper proposes a passive optical backplane as a new network topology for composable computing i...
Present-day datacenter networks (DCNs) are designed to provide full-bisection bandwidth in order to ...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
We investigate operational performance of a novel rack-scale disaggregated network. Results show tha...
Virtual Data Centre (VDC) allocation requires the provisioning of both computing and network resourc...
Most datacenter network designs overwhelmingly use expensive and power-consuming electronic switches...