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Low Power Designs in Nanodevices and Circuits for Emerging Applications

$10.00
Low Power Designs in Nanodevices and Circuits for Emerging Applications
Full access account to all ebooks! Click for details.

Low Power Designs in Nanodevices and Circuits for Emerging Applications

$10.00

by Shilpi Birla (Editor), Shashi Kant Dargar (Editor), Neha Singh (Editor), P. Sivakumar (Editor) 

This reference textbook discusses low power designs for emerging applications. This book focuses on the research challenges associated with theory, design, and applications towards emerging Microelectronics and VLSI device design and developments, about low power consumptions. The advancements in large-scale integration technologies are principally responsible for the growth of the electronics industry.

This book is focused on senior undergraduates, graduate students, and professionals in the field of electrical and electronics engineering, nanotechnology. This book:

  • Discusses various low power techniques and applications for designing efficient circuits
  • Covers advance nanodevices such as FinFETs, TFETs, CNTFETs
  • Covers various emerging areas like Quantum-Dot Cellular Automata Circuits and FPGAs and sensors
  • Discusses applications like memory design for low power applications using nanodevices

The number of options for ICs in control applications, telecommunications, high-performance computing, and consumer electronics continues to grow with the emergence of VLSI designs. Nanodevices have revolutionized the electronics market and human life; it has impacted individual life to make it more convenient. They are ruling every sector such as electronics, energy, biomedicine, food, environment, and communication. This book discusses various emerging low power applications using CMOS and other emerging nanodevices.

Year:
2024
Pages:
339
Language:
English
Format:
PDF
Size:
21 MB
ASIN:
B0CKFKWC2C
ISBN-10:
1032412771
ISBN-13:
9781032412771, 978-1-032-41277-1, 978-1032412771, 978-1-032-60460-2, 978-1032604602, 9781032604602, 978-1-003-45923-1, 9781003459231, 978-1003459231