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Cryogenic microelectronic systems for ultra-low energy and enhanced performance

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
正題名/作者:	Cryogenic microelectronic systems for ultra-low energy and enhanced performance/ by Nurzhan Zhuldassov, Eby G. Friedman.
作者:	Zhuldassov, Nurzhan.
其他作者:	Friedman, Eby G.
出版者:	Cham :Springer Nature Switzerland : : 2025.,
面頁冊數:	xvi, 138 p. :ill., digital ; : 24 cm.;
Contained By:	Springer Nature eBook
標題:	Cryoelectronics. -
電子資源:	https://doi.org/10.1007/978-3-031-90754-8
ISBN:	9783031907548

Cryogenic microelectronic systems for ultra-low energy and enhanced performance
Zhuldassov, Nurzhan.

Cryogenic microelectronic systems for ultra-low energy and enhanced performance[electronic resource] /by Nurzhan Zhuldassov, Eby G. Friedman. - Cham :Springer Nature Switzerland :2025. - xvi, 138 p. :ill., digital ;24 cm.

Chapter 1. Introduction -- Chapter 2. Cryogenic Systems for Electronic Applications -- Chapter 3. Semiconductor Behavior at Cryogenic Temperatures -- Chapter 4. Temperature-Frequency Boundary of Cryogenic Dynamic Logic -- Chapter 5. Thermal Optimization of Hybrid Cryogenic Computing Systems -- Chapter 6. Heat Load Efficiency in Multi-Temperature Zone Cryogenic Computing Systems -- Chapter 7. Integrated Multi-Temperature Cryogenic Computing Systems -- Chapter 8. Conclusions.

This book explores cryogenic computers to achieve faster operation and lower energy use. As computer components become smaller and generate more heat, traditional cooling methods struggle to keep up. By operating at cryogenic temperatures, these limitations can be overcome-reducing heat, improving performance, and opening new possibilities for important applications such as large scale data centers and quantum computers. The approaches and physical models discussed in this book are valuable since these concepts offer a practical methodology for increasing computational computing power without being limited by heat and power dissipation. The book explores how cryogenic temperatures can supercharge computing. Novel methods for designing and optimizing computer systems that operate at extremely low temperatures, improve performance, reduce power consumption, and tackle the fundamental physical limits faced by modern electronics are introduced in this book. From foundational physics-based principles and cryogenic equipment to innovative graph theoretic design, the book offers a fresh look at the future of high performance, energy efficient computing. Provides a solid foundation in cryogenic computing and how it relates to traditional room temperature electronic design Describes a step-by-step framework for optimizing power, performance, and thermal loads in multi-temperature systems Includes novel solutions to some of the toughest challenges of computing, such as heat density and quantum effects.

ISBN: 9783031907548

Standard No.: 10.1007/978-3-031-90754-8doiSubjects--Topical Terms:

676283
Cryoelectronics.

LC Class. No.: TK7872.C77

Dewey Class. No.: 621.381

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505 0 $a Chapter 1. Introduction -- Chapter 2. Cryogenic Systems for Electronic Applications -- Chapter 3. Semiconductor Behavior at Cryogenic Temperatures -- Chapter 4. Temperature-Frequency Boundary of Cryogenic Dynamic Logic -- Chapter 5. Thermal Optimization of Hybrid Cryogenic Computing Systems -- Chapter 6. Heat Load Efficiency in Multi-Temperature Zone Cryogenic Computing Systems -- Chapter 7. Integrated Multi-Temperature Cryogenic Computing Systems -- Chapter 8. Conclusions.
520 $a This book explores cryogenic computers to achieve faster operation and lower energy use. As computer components become smaller and generate more heat, traditional cooling methods struggle to keep up. By operating at cryogenic temperatures, these limitations can be overcome-reducing heat, improving performance, and opening new possibilities for important applications such as large scale data centers and quantum computers. The approaches and physical models discussed in this book are valuable since these concepts offer a practical methodology for increasing computational computing power without being limited by heat and power dissipation. The book explores how cryogenic temperatures can supercharge computing. Novel methods for designing and optimizing computer systems that operate at extremely low temperatures, improve performance, reduce power consumption, and tackle the fundamental physical limits faced by modern electronics are introduced in this book. From foundational physics-based principles and cryogenic equipment to innovative graph theoretic design, the book offers a fresh look at the future of high performance, energy efficient computing. Provides a solid foundation in cryogenic computing and how it relates to traditional room temperature electronic design Describes a step-by-step framework for optimizing power, performance, and thermal loads in multi-temperature systems Includes novel solutions to some of the toughest challenges of computing, such as heat density and quantum effects.
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