Add to ORKGThis article describes practical microelectronic projects and the facilities at the University of Dundee, where students learn to optimise the various fabrication processes and manufacture custom silicon chips and discrete devices. This subject is potentially very wide, including theory of devices and manufacturing technology, and some fundamental aspects of circuit design.</p
Electronics explained in one volume, using both theoretical and practical applications.New chapter o...
Teaching the practical aspects of device and chip design in New Zealand presents many problems, incl...
This book discusses fundamental semiconductor physics of devices and on-chip interconnections for ph...
This article describes practical microelectronic projects and the facilities at the University of Du...
Abstract- The worldwide semiconductor industry is advancing at an astounding pace that requires a sp...
Microelectronics has become an important but inconspicuous part of our daily livesanduniversities ha...
A course on Electronic Instrumentation has recently been developed at the Universidad Autonoma de Ma...
The article presents, after a short historical rewiev the educational and research activities of the...
—This paper discusses the benefits of using large-scale projects, involving many groups of students ...
This article describes the development of a Digital Integrated Circuit Design curriculum, which incl...
Abstract–This paper reports on a new course introduced at the Swiss Federal Institute of Technology ...
Production test is a significant driver of semiconductor manufacturing cost. Parallel with the advan...
This is a course description for Massachusetts Institute of Technologyâs (MIT) course 6.012, Microel...
In Spring 2012, a pilot project to increase student exposure to nanotechnology was carried out in th...
Undergraduate engineering students require exposure to an appropriate level of practical activities ...
Electronics explained in one volume, using both theoretical and practical applications.New chapter o...
Teaching the practical aspects of device and chip design in New Zealand presents many problems, incl...
This book discusses fundamental semiconductor physics of devices and on-chip interconnections for ph...
This article describes practical microelectronic projects and the facilities at the University of Du...
Abstract- The worldwide semiconductor industry is advancing at an astounding pace that requires a sp...
Microelectronics has become an important but inconspicuous part of our daily livesanduniversities ha...
A course on Electronic Instrumentation has recently been developed at the Universidad Autonoma de Ma...
The article presents, after a short historical rewiev the educational and research activities of the...
—This paper discusses the benefits of using large-scale projects, involving many groups of students ...
This article describes the development of a Digital Integrated Circuit Design curriculum, which incl...
Abstract–This paper reports on a new course introduced at the Swiss Federal Institute of Technology ...
Production test is a significant driver of semiconductor manufacturing cost. Parallel with the advan...
This is a course description for Massachusetts Institute of Technologyâs (MIT) course 6.012, Microel...
In Spring 2012, a pilot project to increase student exposure to nanotechnology was carried out in th...
Undergraduate engineering students require exposure to an appropriate level of practical activities ...
Electronics explained in one volume, using both theoretical and practical applications.New chapter o...
Teaching the practical aspects of device and chip design in New Zealand presents many problems, incl...
This book discusses fundamental semiconductor physics of devices and on-chip interconnections for ph...