» » Planar Double-Gate Transistor: From technology to circuit

epub Planar Double-Gate Transistor: From technology to circuit download

by Amara Amara,Olivier Rozeau

  • ISBN: 1402093276
  • Author: Amara Amara,Olivier Rozeau
  • ePub ver: 1837 kb
  • Fb2 ver: 1837 kb
  • Rating: 4.2 of 5
  • Language: English
  • Pages: 211
  • Publisher: Springer; 2009 edition (January 30, 2009)
  • Formats: lit mbr mobi txt
  • Category: Transportation
  • Subcategory: Engineering
epub Planar Double-Gate Transistor: From technology to circuit download

Planar Double-Gate Transistor will mainly focus on SOI CMOS transistors, fully depleted with double independent planar Gates (Independent Planar Double Gates Transistors: IPDGT), a potential candidate for the sub-32 nm technological nodes as planned by the current ITRS.

Planar Double-Gate Transistor will mainly focus on SOI CMOS transistors, fully depleted with double independent planar Gates (Independent Planar Double Gates Transistors: IPDGT), a potential candidate for the sub-32 nm technological nodes as planned by the current ITRS Roadmap.

From technology to circuit. Presents a cross-disciplinary based approach to optimize a new and complex technology. The goal is to point out how we can take advantage of new transistor structures to come up with new basic cells and concepts that exploit the electrical features of these new devices and the breakthrough they bring.

Amara Amara, Olivier Rozeau.

Planar Double-Gate Transistor will mainly focus on SOI CMOS transistors, fully depleted with double independent planar Gates (Independent Planar Double Gates Transistors: IPDGT), a potential candidate for the sub-32 nm technological nodes as planned by the current ITRS. The book topics are mainly focusing on: Detailed description of specific processes that allow the optimization of the CMOS IPDGT device. CMOS IPDGT modeling, both compact and physical models are presented. Device characterization.

This book on Double-Gates devices and circuit is. . The book topics are mainly focusing on

Planar Double-Gate Transistor will mainly focus on SOI CMOS transistors, fully depleted with double independent planar Gates (Independent Planar Double Gates Transistors: IPDGT), a potential candidate for the sub-32 nm technological nodes as planned by the current ITRS Roadmap. Скачать (pdf, . 0 Mb) Читать. Planar Double-Gate Transistor will mainly focus on SOI CMOS transistors, fully depleted with double. Planar Double-Gate Transistor will mainly focus on SOI CMOS transistors, fully depleted with doubl. ONTINUE READING. View PDF. Save to Library.

Автор: Amara Amara; Olivier Rozeau Название: Planar Double-Gate Transistor Издательство: Springer .

Описание: This book explores fabrication and circuit modeling of quantum dot gate field effect transistor (QDGFET) and quantum dot gate NMOS inverter, introduces a circuit model of QDGFET based on Berkley Short Channel IGFET model and simulation of advanced circuits.

Until the 1990s, the reduction of the minimum feature sizes used to fabricate in- grated circuits, called “scaling”, has highlighted serious advantages as integration density, speed, power consumption, functionality and cost. Direct consequence was the decrease of cost-per-function, so the electronic productivity has largely progressed in this period. Another usually cited trend is the evolution of the in- gration density as expressed by the well-know Moore’s Law in 1975: the number of devices per chip doubles every 2 years. This evolution has allowed improving signi?cantly the circuit complexity, offering a great computing power in the case of microprocessor, for example. However, since few years, signi?cant issues appeared such as the increase of the circuit heating, device complexity, variability and dif?culties to improve the integration density. These new trends generate an important growth in development and production costs. Though is it, since 40 years, the evolution of the microelectronics always f- lowed the Moore’s law and each dif?culty has found a solution.

Related to Planar Double-Gate Transistor: From technology to circuit: