Cryogenic Microelectronic Systems for Ultra-Low Energy and Enhanced Performance
暫譯: 超低能量與增強性能的低溫微電子系統
Zhuldassov, Nurzhan, Friedman, Eby G.
- 出版商: Springer
- 出版日期: 2025-08-02
- 售價: $4,010
- 貴賓價: 9.5 折 $3,810
- 語言: 英文
- 頁數: 138
- 裝訂: Hardcover - also called cloth, retail trade, or trade
- ISBN: 3031907531
- ISBN-13: 9783031907531
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相關分類:
微電子學 Microelectronics、量子計算
海外代購書籍(需單獨結帳)
相關主題
商品描述
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.
商品描述(中文翻譯)
這本書探討了低溫計算機,以實現更快的運行速度和更低的能耗。隨著計算機元件變得更小並產生更多熱量,傳統的冷卻方法難以跟上。通過在低溫下運行,可以克服這些限制——減少熱量、提高性能,並為大型數據中心和量子計算機等重要應用開啟新的可能性。本書中討論的方法和物理模型是有價值的,因為這些概念提供了一種實用的方法論,以在不受熱量和功率耗散限制的情況下提高計算能力。
本書探討了低溫如何為計算提供強大動力。書中介紹了設計和優化在極低溫下運行的計算機系統的新方法,這些方法能提高性能、降低功耗,並解決現代電子設備面臨的基本物理限制。從基礎的物理原理和低溫設備到創新的圖論設計,本書為高性能、能源高效的計算未來提供了全新的視角。
作者簡介
Nurzhan Zhuldassov received his B.S. degree in Electrical and Computer Engineering from Nazarbayev University, Astana, Kazakhstan in 2018, and his M.S. in 2019 and Ph.D. in 2024, both in Electrical and Computer Engineering at the University of Rochester, Rochester, New York. In 2022 he was an intern at Google, Sunnyvale, California, and in 2023 he was an intern at Apple, Cupertino, California. His research interests encompass on-chip and package level power delivery networks, power integrity, cryogenic operation of MOSFETs, and optimization of cryogenic electronic circuits.
Eby G. Friedman (Life Fellow, IEEE) received the B.S. degree in electrical engineering from the Lafayette College, and the M.S. and Ph.D. degrees in electrical engineering from the University of California at Irvine. He was with Hughes Aircraft Company, from 1979 to 1991, rising to Manager of the Signal Processing Design and Test Department, where he was responsible for the design and test of high performance digital and analog ICs. He has been with the Department of Electrical and Computer Engineering, University of Rochester, since 1991, where he is currently a Distinguished Professor and the Director of the High Performance VLSI/IC Design and Analysis Laboratory. He is also a Visiting Professor with the Technion--Israel Institute of Technology, Haifa, Israel. He has authored more than 600 articles and book chapters, holds 29 patents, and has authored or edited 21 books in the fields of high speed and low power CMOS design techniques, 3-D design methodologies, high speed interconnect, superconductive circuits, and the theory and application of synchronous clock and power distribution networks. His current research and teaching interests include high performance synchronous digital and mixed-signal circuit design and analysis with application to high speed portable processors, low power wireless communications, and data centers. Dr. Friedman is a Senior Fulbright Fellow, a Fellow of the NAI, a National Sun Yat-sen University Honorary Chair Professor, and an Inaugural Member of the UC Irvine Engineering Hall of Fame. He was a recipient of the IEEE Circuits and Systems Mac Van Valkenburg Award, the IEEE Circuits and Systems Charles A. Desoer Technical Achievement Award, the University of Rochester Graduate Teaching Award and Lifetime Achievement Award, and the College of Engineering Teaching Excellence Award. He was the Editor-in-Chief and Chair of the Steering Committee of the IEEE Transactions on Very Large Scale Integration (VLSI) Systems, the Editor-in-Chief of the Microelectronics Journal, a Regional Editor of the Journal of Circuits, Systems and Computers, an editorial board member for numerous journals, and a program and technical chair for several IEEE conferences.
作者簡介(中文翻譯)
Nurzhan Zhuldassov於2018年在哈薩克斯坦阿斯塔納的納扎爾巴耶夫大學獲得電氣與計算機工程學士學位,並於2019年獲得碩士學位,2024年獲得博士學位,兩者均為美國紐約州羅徹斯特大學的電氣與計算機工程學位。2022年,他在加州聖荷西的Google擔任實習生,2023年在加州庫比蒂諾的Apple擔任實習生。他的研究興趣包括片上和封裝級電源傳遞網路、電源完整性、MOSFET的低溫操作以及低溫電子電路的優化。
Eby G. Friedman(IEEE生命會士)於拉法葉學院獲得電氣工程學士學位,並在加州大學爾灣分校獲得電氣工程碩士和博士學位。他曾在休斯飛機公司工作,從1979年到1991年,晉升為信號處理設計與測試部門經理,負責高性能數位和類比集成電路的設計與測試。自1991年以來,他一直在羅徹斯特大學的電氣與計算機工程系任教,目前擔任傑出教授及高性能VLSI/IC設計與分析實驗室主任。他同時也是以色列海法的以色列理工學院的訪問教授。他已發表超過600篇文章和書籍章節,擁有29項專利,並在高速和低功耗CMOS設計技術、3D設計方法、高速互連、超導電路以及同步時鐘和電源分配網路的理論與應用領域編著或編輯了21本書。他目前的研究和教學興趣包括高性能同步數位和混合信號電路的設計與分析,應用於高速可攜式處理器、低功耗無線通信和數據中心。Friedman博士是高級富布萊特學者、NAI會士、國立中山大學榮譽講座教授,以及加州大學爾灣分校工程名人堂的創始成員。他曾獲得IEEE電路與系統Mac Van Valkenburg獎、IEEE電路與系統Charles A. Desoer技術成就獎、羅徹斯特大學研究生教學獎和終身成就獎,以及工程學院教學卓越獎。他曾擔任IEEE Transactions on Very Large Scale Integration (VLSI) Systems的主編及指導委員會主席,Microelectronics Journal的主編,Journal of Circuits, Systems and Computers的區域編輯,並為多本期刊的編輯委員會成員,以及多個IEEE會議的程序和技術主席。
