Low-Power High-Level Synthesis for Nanoscale CMOS Circuits [electronic resource] / by Priyardarsan Patra, Elias Kougianos, Nagarajan Ranganathan, Saraju P. Mohanty.

By:

Patra, Priyardarsan [author.]

Contributor(s):

Publisher: Boston, MA : Springer US, 2008Description: XXXII, 302 p. 20 illus. online resourceContent type:

text

Media type:

computer

Carrier type:

online resource

ISBN:

9780387764740

Subject(s):

Genre/Form:

Electronic books.

Additional physical formats: Printed edition:: No titleDDC classification:

621.3815 23

LOC classification:

TK7888.4

Online resources:

Click here to access online

Contents:

High-Level Synthesis Fundamentals -- Power Modeling and Estimation at Transistor and Logic Gate Levels -- Architectural Power Modeling and Estimation -- Power Reduction Fundamentals -- Energy or Average Power Reduction -- Peak Power Reduction -- Transient Power Reduction -- Leakage Power Reduction -- Conclusions and Future Direction.

In: Springer eBooksSummary: 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.

Item type:

eBooks

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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.