We survey reconfigurable optical add/drop multiplexer (ROADM) architectures that enable efficient and flexible bandwidth utilization in dense wavelength division multiplexed (DWDM) systems.
Simulating a chip that is comprised of both analog and digital portions has proven to be a difficult and challenging problem. In this paper, we present one solution to the problem.
In this paper we describe a mixed behavior-logic simulator in a hardware accelerator. It is ideally suited for the design of fast-turn-around ASICs using a standard cell library.
We consider mixed finite element methods for second order elliptic equations on nonmatching multiblock grids. A mortar finite element space is introduced on the nonmatching interfaces.
In the last years, the migration from 10 to 40/100 Gbps networks has been proposed as a solution to increase the capacity of transparent optical networks.
We study Markov models whose state spaces arise from the Cartesian product of two or more discrete random variables.
A cascade formant model is well suited to describe certain speech segments such as vowel and vowel like sounds.
Nowadays, transport networks are mainly based on SDH/SONET whereas the traffic becomes more Ethernet/IP oriented.
Given a set of potential facilities (with individual opening cost and finite capacity) and a set of client demands, the capacitated Facility Location Problem (cFLP) consists in selecting a set of f
Workpiece deformation during machining is a significant source of machined feature geometric error.
