Best Reference Books – Low Power Circuits and Systems

We have compiled the list of Top 10 Best Reference Books on Low Power Circuits and Systems subject. These books are used by students of top universities, institutes and colleges. Here is the full list of top 10 best books on Low Power Circuits and Systems along with reviews.

Kindly note that we have put a lot of effort into researching the best books on Low Power Circuits and Systems subject and came out with a recommended list of top 10 best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on "Low Power Circuits and Systems" as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.

1. “CMOS Digital Integrated Circuits” by Sung-Mo Kang and Yusuf Leblebici

Book Review: This book offers the most comprehensive coverage of digital CMOS circuit design and also addresses state-of-the-art technology issues highlighted by the use of nanometer scale CMOS technologies. The transistor model equations and device parameters have been revised to reflect the changes that must be taken into account for new technology generations and up to date examples have been included in the book for better understanding. The book covers fundamentals of CMOS process technology, MOS transistor models, CMOS gates, interconnect effects, dynamic circuits, memory circuits, arithmetic building blocks, clock and I/O circuits, low power design techniques and manufacturability and testability design.

2. “Principles of CMOS VLSI Design” by Neil H E Weste and K Eshraghian

Book Review: This book is very useful for introductory and advanced courses in VLSI design and is very useful for both beginners and experienced readers. The book presents in-depth coverage in the field of modern CMOS VLSI design. The book also introduces most advanced and effective chip design practices of today. It presents an updated coverage of every aspect of VLSI design thereby illuminating the latest design challenges. The book also provides a rich set of worked examples and problems that provides practical insight to readers at all the levels.

3. “Low Power Digital CMOS Design” by Anantha P Chandrakasan and Robert W Brodersen

Book Review: The book provides a comprehensive approach at all the levels of system design, ranging from algorithms and architectures to logic styles and their underlying technology. The techniques presented in the book involve combining architecture optimization with voltage scaling thereby allowing a trade off between silicon area and low power operation. Techniques to minimize switched capacitance including representation, optimizing signal correlations, minimizing spurious transitions are nicely illustrated in the book. The book also presents analysis of fundamental limits of power consumption, the book describes adiabatic switching techniques thereby presenting the application of aggressive shutdown techniques to microprocessor applications.

4. “Low-Power CMOS VLSI Design” by Kaushik Roy and Sharat C Prasad

Book Review: This book provides various solutions and reasoning behind the concept of circuit design based on CMOS VLSI on how to effectively cut power consumption. The book is completely devoted to low power circuit design and the chapters included in the book are low power CMOS VLSI design, power estimation, physics of power dissipation in CMOS FET devices, synthesis for low power design, testing of low voltage CMOS circuits, low power static RAM architectures, low energy computing using energy recovery techniques and software design for low power.

5. “Low-Power Digital VLSI Design: Circuits and Systems” by Abdellatif Bellaouar Mohamed Elmasry

“Lower-Power Digital VLSI Design: Circuits and Systems” Book Review: This book explains device modeling as well as process technologies. Power dissipation of I/O circuits, pass-transistor logic families, static power reduction circuit techniques, designs of different subsystems of advanced CMOS, and low-power techniques are elaborated in great detail. Low-power design methodology and low-voltage issues of digital BiCMOS and CMOS circuits have also been covered. Various power minimization techniques at the architecture, circuit, algorithm, and logic levels are also presented.

6. “Sub-Threshold Design for Ultra Low-Power Systems 1st Edition” by Benton H Calhoun Anantha P Chandrakasan Alice Wang

“Sub-Threshold design for Ultra Low-Power Systems” Book Review: This book provides an in-depth survey of logic, modeling, and memory circuit design for sub-threshold and low-voltage circuit design. The book also discusses optimization of energy dissipation for energy constrained designs. Dissertations on analog sub-threshold circuits are also included in this volume.

7.”Low Power Digital CMOS Design” by Anantha P Chandrakasan and Robert W Brodersenglish

“Low Power Digital CMOS Design” Book Review: This book provides a comprehensive approach to the various levels of system design so that a designer can meet the high computational requirements when power dissipation is limited. Architectures, algorithms, logic styles and their underlying technology are all covered in detail. Voltage scaling, DC-DC converter circuitry, and various other low-power techniques are also discussed. The book also features various analyses by Professor Meindl, Srivastava (AT&T), and Svensson (ISI) where they discuss emerging techniques that can reduce energy consumption of systems.

8. “Hardware/Software Architectures for Low-Power Embedded Multimedia Systems” by Shafique

“Hardware/Software Architectures for Low-Power Embedded Multimedia Systems” Book Review: This book analyzes various techniques which can reduce energy consumption in adaptive embedded multimedia systems by basing it on dynamically reconfigurable processors. The techniques presented are applicable at both application architecture level and processor architecture level. This book will prove to be useful for system designers who need to adhere to area/performance constraints without affecting video degradation in different run-time circumstances.

9. “Low-Power VLSI Circuits and Systems” by Ajit Pal

“Low-Power VLSI Circuits and Systems” Book Review: This book offers a comprehensive approach to the fundamental concepts of low-power circuit synthesis at different design levels. The book starts with an introduction to MOS circuits at the gate, transistor, and circuit level. The book also discusses switched capacitance minimization techniques, supply voltage scaling, leakage power minimization approaches, and other various low-power design methodologies. Practicing engineers, researchers as well as undergraduate or graduate students will find this book to be very helpful to gain insight into fundamentals of VLSI design.

10. “Vhdl: Modeling For Digital Design Synthesis” by S Ramamurthy

“VHDL: Modeling for Digital Design Synthesis” Book Review: This book offers a thorough introduction to VHSIC Hardware Description Language (VHDL) and its application in synthesis. Readers will learn how to use VHDL in modeling digital designs over different abstraction levels. This book is suitable for designers, practitioners as well as undergraduate or graduate students.

People who are searching for Free downloads of books and free pdf copies of these top 10 books on Low Power Circuits and Systems – we would like to mention that we don’t have free downloadable pdf copies of these good books and one should look for free pdf copies from these Authors only if they have explicitly made it free to download and read them.

We have created a collection of best reference books on "Low Power Circuits and Systems" so that one can readily see the list of top books on "Low Power Circuits and Systems" and buy the books either online or offline.

If any more book needs to be added to the list of best books on Low Power Circuits and Systems subject, please let us know.

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