Microelectronics Education

Oral Presentations.- Enhancing system-level education with reusable designs.- Demands on microelectronics education and research in the Post-PC era.- On the design of microelectronic design projects to fulfill given learning objectives.- System-on-Chip design and its transfer to microelectronics education.- Best practices from 100 corporate universities world-wide.- Quality labelling for electronic training courses.- System LSI design methodology training in Hitachi Ltd.- A university network for the silicon industry.- Educational multimedia and microelectronics: should we think first about the conditions of use ?.- The use of streaming multi-media in microelectronic education.- Distributed VLSI design education using MOCA: the Multimedia On-line Collaboration Architecture.- The MEDEA EDA roadmap, and how it should influence microelectronics education.- The MOSIS Service: IC prototyping and educational program.- Achievements and advances at CMP.- The EUROPRACTICE IC Service offers a new approach to deep submicron design.- Women in engineering in Europe.- Roles and prospects of IDEC activities for the promotion of integrated systems education in Korea.- The specific challenges of electronics and IT education in New Zealand.- Situation and developing trend of microelectronics education in China.- Computer simulations of microdevices and microsystems: gaining insights by visualizing physical concepts.- Teaching modules for a class in Mechatronics.- Multimedia CD-ROM: “An Introduction to the world of microsystems”.- Poster Sessions.- Action-based learning system for teaching digital electronics and test.- MEDICIS: an environment for remote FPGA circuit testing by Internet.- WEB based exercises on computer arithmetic.- Distance interactive microelectronics technologycourse: a tool to make easier the understanding and the learning.- TRANSTEC — online training for innovative micro-fabrication techniques.- The role of CAL/CBT tools in microelectronics education.- Geographically distributed teaching laboratory for microelectronic design and testing.- Multimedia tool for self-learning VHDL.- Using multimedia in a digital design lab.- Memphis, a hypermedia system for learning microelectronics.- Hypermedia applications as interactive database resources.- Chips on the Net: an FPGA prototyping platform.- Web based tutorials for teaching electronics.- A web application experience in electronic education in the engineering syllabus.- Basic microelectronics self instructor.- MREL: MetaRegister of Expert Links.- EuroPractice training — a Pan-European infrastructure for microelectronics training.- An experimental approach to the study of semiconductor laser sources.- Laboratory of microelectronics: an advanced practical course on analog ICs design.- A World Wide Web teaching and learning environment applied to educational courses in microelectronics.- FPGA and DSP based programmable system used for educational purposes.- Training of new experts for electronics at the BSU.- Application-oriented microelectronics education.- Interactive logic design on the world wide web.- Mixed-signal testing at the ASIC design course at Twente University.- Multidisciplinary DSP-based control project.- Introducing GSM basic circuits principles.- Improving student assessment in electronics: open exams.- A proposal of the curriculum concerning the information engineering for microelectronics and computer industries.- A graduate program in integrated communication systems.- Concepts for teaching new circuit techniques.- Managing microelectronics education forthe future and tackling the information overflow.- A case study in VLSI design for communications: design of a pipelined adaptive DFE for GMSK over indoor radio channels.- Towards a reusable SoC design methodology.- Design in microelectronics & computer engineering: teaching undergraduates.- Mixed-signal test training at CRTC.- Multidisciplinary collaborative design course for system-on-a-chip (SOC).- Introducing digital circuits design and formal verification concurrently.- Design of the Hadamard Coprocessor with the Alliance CAD system carried by post-graduating students.- Microsystem project-oriented education.- A new trial on HDL exercice class for undergraduate school in EE Department.- Providing flexible interne infrastructure for FPGA-based CAD courses.- PICO — a model microprocessor framework for architecture education.- A Java-based framework for simulation and teaching: HADES — the Hamburg Design System.- Design of analog integrated circuits: freeware PC-based CAD for student practices.- CMP experience on deep sub-micron design-methodology support and transfer.- An introduction to microsystems fabrication.- Experimental and analytical methods for ESD phenomena and their failure analysis in CMOS IC’s.- Electronics manufacturing learning factory.- Physics of semiconductor devices: a 2D simulation training course.