To the aim of developing industrializable low-cost electronic techniques for the compensation of non-linearities in Radio-over-Fibre networks, a semiconductor laser circuit model and a predistortion circuit configuration have been implemented and simulated. The CAD procedure illustrated indicates the steps to obtain a broadband compensation (0.4-2 GHz) of both second- and third-order distortions.

In this paper, characteristics of a digital system dedicated to the fast execution of the FDTD algorithm, widely used for electromagnetic simulation, are presented. Such system is conceived as a module communicating with a host personal computer via a PCI bus, and is based on a VLSI ASIC, which implements the "field-update" engine. The system structure is defined by means of a hardware description language, allowing to keep high-level system specification independent of the actual fabrication technology. A virtual implementation of the system has been carried out, by mapping such description in a standard-cell style on a commercial 0.35 µm technology. Simulations show that significant speed-up can be achieved, with respect to state-of-the-art software implementations of the same algorithm.