Gaas Code

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	Enhanced design of GAAS in Europe EDGE 1996 - 1998 Subjects : Information Processing, Information Systems, Innovation, Technology Transfer, Electronics, Microelectronics, Industrial Manufacture, Telecommunications Contract type : Cost-sharing contracts Participants : UNIVERSITY COLLEGE DUBLIN ÉIRE/IRELAND UNIVERSITY COLLEGE DUBLIN Education Belfield ÉIRE/IRELAND Jansen Microwave Gmbh DEUTSCHLAND Jansen Microwave Gmbh Industry Kackertstrasse 16-18 52072 DEUTSCHLAND Dassault Electronique France Dassault Electronique Industry BP 301 55,Quai Marcel Dassault 92214 France Laboratoires D'electronique Philips France Laboratoires D'electronique Philips Industry BP 15 Avenue Descartes 22 94453 France Jansen Microwave Germany Jansen Microwave Industry Kackertstrasse 16-18 Germany Barnard Microsystems United Kingdom Barnard Microsystems Industry Crouch Hill 134 N8 9DX United Kingdom GAAS Code United Kingdom GAAS Code Industry St John's Innovation Centre Cowley Road CB4 4WS United Kingdom GEC Marconi Materials Technology United Kingdom GEC Marconi Materials Technology Industry Caswell NN12 8EQ United Kingdom Hide objective - Demonstration of effective, working, user-friendly links between existing different European CAD tools, to be exploited commercially as new product enhancements. -The project will allow users to complement their existing investments in CAD products from US vendors (in particular from HP-EEsof) with a set of easy-to-use extensions and links to European CAD tools/models offering added user value. -Major enhancements to existing CAD interface formats will be demonstrated through the provision of direct access to MMIC foundry library modules. Furthermore, the consortium intend to work towards a common European style of user interface. -New analysis techniques will be provided for MMICs which are complex, multi-function and operating in strongly non-linear and/or low-power regimes. -An advanced, standardised, non-linear FET model will be delivered for at least two of the foundry processes represented in the consortium, using a synthesis of the best available research ideas, including a unified, physics-constrained model. Hide general information The overall objective of EDGE is to provide a new, user-oriented and commercially-driven CAD resource to support high-frequency analogue design in Europe, specifically targeting linear and non-linear MMICs, as well as interconnect structures, for operation from 0.1 GHz to 100 GHz and beyond. The project's main outside industrial impact will be through enabling shorter time-to-market and reduced cost for successful circuit realisation in several key application sectors with major growth potential in the microwave, RF and mm-wave area, especially those related to Si- and GaAs-based components for wireless communications. Source : cordis