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Microelectronics International is a peer-reviewed scientific journal. It is published quarterly by Emerald Group Publishing , and the editor is John Atkinson . It covers research on miniaturized electronic devices, microcircuit engineering , semiconductor technology, and systems engineering .
Micromachining, semiconductor processing, microelectronic fabrication, semiconductor fabrication, MEMS fabrication and integrated circuit technology are terms used instead of microfabrication, but microfabrication is the broad general term.
The University of the Philippines Diliman College of Engineering is a degree-granting unit of the University of the Philippines Diliman specializing in chemical, civil, computer, electrical, electronic, geodetic, industrial, materials, mechanical, metallurgical, and mining engineering.
Microelectronics is a subfield of electronics. As the name suggests, microelectronics relates to the study and manufacture (or microfabrication ) of very small electronic designs and components. Usually, but not always, this means micrometre-scale or smaller.
The foundry model is a microelectronics engineering and manufacturing business model consisting of a semiconductor fabrication plant, or foundry, and an integrated circuit design operation, each belonging to separate companies or subsidiaries.
The former MCC headquarters building in Austin, Texas. Microelectronics and Computer Technology Corporation, originally the Microelectronics and Computer Consortium and widely seen by the acronym MCC, was the first, and at one time one of the largest, computer industry research and development consortia in the United States.
A parallel line of research seeks to create nanoelectronic devices which could interact with single cells for use in basic biological research. [21] These devices are called nanosensors. Such miniaturization on nanoelectronics towards in vivo proteomic sensing should enable new approaches for health monitoring, surveillance, and defense technology.
IBM T.J. Watson Research Center [52] [53] 180 nm? GAAFET: Fujio Masuoka, Hiroshi Takato, Kazumasa Sunouchi, N. Okabe Toshiba [54] [55] [56] December 1989: 200 nm: FinFET: Digh Hisamoto, Toru Kaga, Yoshifumi Kawamoto, Eiji Takeda Hitachi Central Research Laboratory [57] [58] [59] December 1998: 17 nm: FinFET Digh Hisamoto, Chenming Hu, Tsu-Jae ...