Objectif The objective of this project was to investigate the use of optical interconnection between VLSI and high bit-rate ICs. As the operating speed and the complexity of microelectronic circuits increases, several packaging and interconnection problems arise. At high bit rates the input/output pins of packages and printed circuit interconnections between packages must be treated as microwave transmission lines for impedance matching and crosstalk suppression. As circuits grow more complex, the pin count in thepackage increases, creating potential reliability problems and excessive package costs. The use of optical rather than electronic interconnection is expected to circumvent these problems. The inherent wide bandwidth and crosstalk immunity of optical transmission media permits very high bit-rate signals to be readily distributed. Because of this, many lower bitrate signals, each of which would conventionally employ a package pin, can be mu ltiplexed together to form an easily transmitted, high bitrate, optical signal which leaves the integrated circuit package via an "opticalpin". During the course of this project the application and implementation of optical interconnection were assessed. The objective of this project was to investigate the use of optical interconnection between very large scale integration (VLSI) and high bit rate integrated circuits (IC).During the course of this project the application and implementation of optical interconnection were assessed.Work included design studies of the performance, cost and implementations of optical sources and detectors and the choice of optical interconnections. The limitations of optical interconnection have been assessed in terms of power budgets and bit rates and the technology has been studied considering various communication protocols, integrated circuits (IC) performance boundaries and impact on processor architectures. Limited experimental work has been done on investigating low cost techniques for fibre to chip interfaces and for the incorporation of optical fibres into printed circuit boards.Work in project 380 included design studies of the performance, cost and implementations of optical sources and detectors and the choice of optical fibre for optical interconnections. The limitations of optical interconnection have been assessed in terms of power budgets and bit rates, and the technology has been studied considering various communication protocols, IC performance boundaries and impact on processor architectures. Limited experimental work has been done on investigating low-cost techniques for fibre-to-chip interfaces and for the incorporation of optical fibres into printed circuit boards. This one-year project was continued in project986, in which experimental investigation of the optical interconnection solutions developed here took place. Champ scientifique natural sciencesphysical sciencesopticsfibre optics Programme(s) FP1-ESPRIT 1 - European programme (EEC) for research and development in information technologies (ESPRIT), 1984-1988 Thème(s) Data not available Appel à propositions Data not available Régime de financement Data not available Coordinateur GEC Marconi Research Centre Contribution de l’UE Aucune donnée Adresse West Hanningfield Road Great Baddow CM2 8HN Chelmsford Royaume-Uni Voir sur la carte Coût total Aucune donnée Participants (2) Trier par ordre alphabétique Trier par contribution de l’UE Tout développer Tout réduire Telettra SpA Italie Contribution de l’UE Aucune donnée Adresse Via Tremo 30 20059 Vimercate Milano Voir sur la carte Coût total Aucune donnée University of Southampton Royaume-Uni Contribution de l’UE Aucune donnée Adresse Highfield SO9 5NH Southampton Voir sur la carte Coût total Aucune donnée