In this paper a carrier grade distributed open cloud computing architecture is designed for telecom operators.
The CARRIOCAS project studies and implements a high-bit-rate optical network (up to 40Gb/s per wavelength) to enable high-performance applications in numerical design, virtual prototyping and scien
The CARRIOCAS project studies and implements a high bit rate optical network capable of accommodating the requirements of data-intensive, high-performance distributed applications, in terms of band
The current approach to learn from the geodistributed data is to create a centralized, global model which is done over data collected from different datacenters transferred to the central server.
Throughout history, maps have been used as a tool to explore cities. They visualize a city's urban fabric through its streets, buildings, and points of interest.
We assess a new 2R regenerator based on a microcavity saturable absorber and a semiconductor optical amplifier.
We report on the cascadability assessment of 3R regeneration based on optical synchronous modulation using cross saturation absorption in a quantum-well microcavity driven optically by the recovere
A multi-service optical packet ring for the metro area are presented in this paper.
In this paper, we consider a wireless sensor network that involves data transmitted through multiple relays to reach a destination.
The operation of an optical 3R regenerator combining monolithic integrated semiconductor optical amplifier-based Mach Zehnder interferometers is demonstrated at 40 Gbit/s.
