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Characteristic Determination for Solid State Devices with Evolutionary Computation A Case Study Ping Chu Hung Dept of Computer Science National Chiao Tung University HsinChu City 300 Taiwan Ying ping Chen Dept of Computer Science National Chiao Tung University HsinChu City 300 Taiwan Hsiao Wen Zan Dept of Photonics National Chiao Tung University HsinChu City the development of solid state devices plays an essential role …… [17] D. A. Neamen. Semiconductor Physics and Devices. McGraw Hill Higher Education 300 Taiwan bjhong nclab tw ABSTRACT ypchen nclab tw hsiaowen mail nctu edu tw In this paper we develop a new optimization framework that consists of the extended compact genetic algorithm ECGA and split on demand SoD to tackle the characteristic determination problem for solid state devices As most decision variables of characteristic determination problems are real numbers due to the modeling of physical phenomena and ECGA is designed for handling discrete type problems a speci c mechanism Continue to download »
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Dublin Institute of Technology Pre Requisite Modules code s Co Requisite Modules code s ECTS Credits Module Code Module Title Solid State Electronics 5 SSEL 2602 This Header should be repeated on each page of the Module SSEL 2602 Solid State Electronics Module author Kevin Berwick Paul Kiernan Domnick Nardone Module Description This module is an introduction to the concepts required to describe the operation of semiconductor devices Module aim The aim of this module is to introduce the student to the fundamentals of Solid State Electronics and to apply these principles to the analysis of semiconductor devices Ben Streetman , Sanjay Banerjee, Solid State Electronic Devices (6th … An Introduction to Semiconductor Devices, 1/E, Donald Neamen, Mc Graw Hill, 2006 Learning Outcomes On completion of this module the learner will be able to 1 Explain the concept of energy bands and the difference between Metals Semiconductors and Insulators 2 Explain the concepts of direct and indirect bandgaps and the operation of electronic and
Spot Moore s Law and nanomaterials research Masahiko Hara Laboratory Head Local Spatio Temporal Functions Laboratory RIKEN The Institute of Physical and Chemical Research Materials science and engineering represent important foundations upon which our society is based Our way of life depends to a great extent on advancement in these elds advancement which further presents us with an index for measuring the continuing progress of society The development of semiconductor devices during the last century opened up a completely new vista in materials research and brought about a whole new range of unprecedented capabilities such as large computer memory capacities and the rapid processing of huge amounts of data In accordance with what is known as Moore s Law propounded in 1965 by Gordon Moore co founder of Intel the number of transistors per integrated circuit has roughly doubled every 18 to 24 months since the technology was developed Miniaturization and what is today popularly termed nanotechnology are 