High-Performance Energy-Efficient Microprocessor Design (Series on Integrated Circuits and Systems)

"This book covers the design of next generation microprocessors in deep submicron CMOS technologies. The chapters in Design of High Performance Microprocessor Circuits were written by some of the worlds leading technologists, designers, and researchers. All levels of system abstraction are covered,

This book covers the design of next generation microprocessors in deep submicron CMOS technologies. The chapters in Design of High Performance Microprocessor Circuits were written by some of the world's leading technologists, designers, and researchers. All levels of system abstraction are covered,

Chapter 1 Impact of Physical Technology on Architecture / John H. Edmondson 3 -- Part II Technology Issues 25 -- Chapter 2 CMOS Scaling and Issues in Sub-0.25 [mu]m Systems / Yuan Taur 27 -- Chapter 3 Techniques for Leakage Power Reduction / Vivek De, Yibin Ye, Ali Keshavarzi, Siva Narendra, James

<p>This work began in 1995 as an outgrowth of the InfoPad project which showed us that in order to reduce the energy consumption of a portable multimedia terminal that something had to be done about the consumption of the microprocessor subsystem. The design of the InfoPad attempted to reduce the re

<p>Semiconductor Device Physics and Design teaches readers how to approach device design from the point of view of someone who wants to improve devices and can see the opportunity and challenges. It begins with coverage of basic physics concepts, including the physics behind polar heterostructures a

<p><span>Semiconductor Device Physics and Design</span><span> provides a fresh and unique teaching tool. Over the last decade device performances are driven by new materials, scaling, heterostructures and new device concepts. Semiconductor devices have mostly relied on Si but increasingly GaAs, InGa