Practical Low Power Digital VLSI Design: A Comprehensive Guide for CMOS Designers
2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002: A Book Review
If you are interested in learning how to design low power digital VLSI circuits using current generation design style and process technology, you might want to check out the book 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002. This book, written by Gary Yeap, a senior staff engineer at Motorola, covers the basic principles, methodologies and techniques that are common to most CMOS digital designs. It also presents the optimization and trade-off techniques that involve power dissipation, as well as some special techniques that are specific to some key areas of digital chip design. In this article, we will give you a brief overview of the book and its main contents.
2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002
What is 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002?
2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002 is a book that was published in 1998 by Springer. It is based on the author's experience in designing low power digital VLSI circuits for Motorola products. The book consists of eight chapters, each focusing on a different aspect of low power design. The book is intended for VLSI design engineers and students who have a fundamental knowledge of CMOS digital design.
What are the main topics covered in 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002?
The main topics covered in 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002 are:
Introduction: This chapter introduces the motivation and challenges of low power design, as well as some basic concepts and definitions related to power dissipation.
Simulation Power Analysis: This chapter discusses the techniques and tools for estimating and measuring power dissipation using simulation methods.
Probabilistic Power Analysis: This chapter explains the techniques and tools for estimating and measuring power dissipation using probabilistic methods.
Circuit: This chapter describes the low power techniques at the circuit level, such as device sizing, threshold voltage scaling, supply voltage scaling, and leakage reduction.
Logic: This chapter presents the low power techniques at the logic level, such as logic style selection, signal gating, precomputation logic, and logic encoding.
Special Techniques: This chapter covers some special techniques that are specific to some key areas of digital chip design, such as CMOS floating node, delay balancing, clock gating, and adiabatic logic.
Architecture and System: This chapter explores the low power techniques at the architecture and system levels, such as parallelism, pipelining, data compression, memory hierarchy, and system partitioning.
Advanced Techniques: This chapter introduces some advanced techniques that are just appearing on the horizon, such as dynamic voltage scaling, dynamic frequency scaling, subthreshold operation, and asynchronous design.
Why should you read 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002?
You should read 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002 if you want to:
Learn the fundamentals of low power design: The book provides a solid foundation for understanding the sources and types of power dissipation in CMOS digital circuits, as well as the methods and tools for analyzing and optimizing them.
Gain practical knowledge and skills: The book illustrates the application of low power techniques using real-world examples and case studies from Motorola products. It also gives tips and guidelines for choosing and implementing low power techniques in different design scenarios.
Keep up with the latest trends and developments: The book covers some of the most recent and emerging techniques for low power design that are not widely discussed in other books or publications.
Conclusion
In conclusion, 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002 is a valuable resource for anyone who wants to learn how to design low power digital VLSI circuits using current generation design style and process technology. The book covers a wide range of design abstraction levels spanning circuit, logic, architecture and system. It also presents a comprehensive overview of low power techniques from basic principles to advanced methods. The book is written in a clear and concise manner, with plenty of examples and references. If you are interested in low power design, you should definitely check out this book.
In conclusion, 2011 Gary K Yeap Practical Low Power Digital Vlsi Design Kap 2002 is a valuable resource for anyone who wants to learn how to design low power digital VLSI circuits using current generation design style and process technology. The book covers a wide range of design abstraction levels spanning circuit, logic, architecture and system. It also presents a comprehensive overview of low power techniques from basic principles to advanced methods. The book is written in a clear and concise manner, with plenty of examples and references. If you are interested in low power design, you should definitely check out this book. ca3e7ad8fd