The NEPHELE network is divided into pods of racks and relies on hybrid electro-optical top-of rack switches that access an all-optical network. To enable dynamic and efficient sharing of the optical resources and a collision-free network operation, the NEPHELE network is envisioned to be operated in a slotted TDMA manner with a software-defined-network (SDN) based control plane. We describe the NEPHELE resource allocation problem and present a number of algorithmic solutions suitable to tackle different traffic scenarios
The internet is composed of thousands of networks, linking millions of users at academic, industrial...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
The demand of data traffic bandwidth is ever increasing. Optical networking technologies hold the pr...
The NEPHELE datacenter network is divided into pods/clusters of racks and relies on hybrid electro-o...
The soaring traffic demands in datacenter networks (DCNs) are outpacing progresses in CMOS technolog...
The adoption of optical switching technologies in Data Centre Networks (DCNs) offers a solution for ...
We present heuristic algorithms for the efficient resource partitioning in the NEPHELE datacentre op...
The world's hunger for connectivity appears to be endlessly growing, yet the capacity of the network...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
This paper proposes a methodology for the efficient allocation of both optical and wireless resource...
Abstract The continuous increasing of the Internet traffic has brought serious concerns about capaci...
As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve ...
This paper describes the network architecture and provides a performance analysis of a passive optic...
The software-defined network (SDN) is a new networking paradigm to improve network performance via l...
Passive Optical Networks (PON) which offer 1 Gbit/s of symmetrical bitrate shared among 32 or 64 cli...
The internet is composed of thousands of networks, linking millions of users at academic, industrial...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
The demand of data traffic bandwidth is ever increasing. Optical networking technologies hold the pr...
The NEPHELE datacenter network is divided into pods/clusters of racks and relies on hybrid electro-o...
The soaring traffic demands in datacenter networks (DCNs) are outpacing progresses in CMOS technolog...
The adoption of optical switching technologies in Data Centre Networks (DCNs) offers a solution for ...
We present heuristic algorithms for the efficient resource partitioning in the NEPHELE datacentre op...
The world's hunger for connectivity appears to be endlessly growing, yet the capacity of the network...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
This paper proposes a methodology for the efficient allocation of both optical and wireless resource...
Abstract The continuous increasing of the Internet traffic has brought serious concerns about capaci...
As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve ...
This paper describes the network architecture and provides a performance analysis of a passive optic...
The software-defined network (SDN) is a new networking paradigm to improve network performance via l...
Passive Optical Networks (PON) which offer 1 Gbit/s of symmetrical bitrate shared among 32 or 64 cli...
The internet is composed of thousands of networks, linking millions of users at academic, industrial...
We propose close-to-optimal network resource allocation algorithms modular data centers using optica...
The demand of data traffic bandwidth is ever increasing. Optical networking technologies hold the pr...