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| Low-Power High-Level Synthesis for Nanoscale CMOS Circuits
Mohanty, S.P., Ranganathan, N., Kougianos, E., Patra, P.
2008, 20 illus., Hardcover
ISBN: 978-0-387-76473-3
Not yet published. Available: June 6, 2008
| $129.00
| About this book
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Table of contents
About this book
Low-Power High-Level Synthesis for Nanoscale CMOS Circuits addresses the need for analysis, characterization, estimation, and optimization of the various forms of power dissipation in the presence of process variations of nano-CMOS technologies. The authors show very large-scale integration (VLSI) researchers and engineers how to minimize the different types of power consumption of digital circuits. The material deals primarily with high-level (architectural or behavioral) energy dissipation because the behavioral level is not as highly abstracted as the system level nor is it as complex as the gate/transistor level. At the behavioral level there is a balanced degree of freedom to explore power reduction mechanisms, the power reduction opportunities are greater, and it can cost-effectively help in investigating lower power design alternatives prior to actual circuit layout or silicon implementation.
The book is a self-contained low-power, high-level synthesis text for Nanoscale VLSI design engineers and researchers. Each chapter has simple relevant examples for a better grasp of the principles presented. Several algorithms are given to provide a better understanding of the underlying concepts. The initial chapters deal with the basics of high-level synthesis, power dissipation mechanisms, and power estimation. In subsequent parts of the text, a detailed discussion of methodologies for the reduction of different types of power is presented including:
• Power Reduction Fundamentals
• Energy or Average Power Reduction
• Peak Power Reduction
• Transient Power Reduction
• Leakage Power Reduction
Low-Power High-Level Synthesis for Nanoscale CMOS Circuits provides a valuable resource for the design of low-power CMOS circuits.
Written for:
Nanoscale VLSI design engineers and researchers
Keywords:
- Architectural power estimation
- High-level synthesis
- Logic gate levels
- Low-power synthesis
- Nanoscale CMOS
- Transient power
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