Extending Moore's Law Through Advanced Semiconductor Design and Processing Techniques
Lambrechts, Wynand, Sinha, Saurabh, Abdallah, Jassem Ahmed
相關主題
商品描述
This book provides a methodological understanding of the theoretical and technical limitations to the longevity of Moore's law. The book presents research on factors that have significant impact on the future of Moore's law and those factors believed to sustain the trend of the last five decades. Research findings show that boundaries of Moore's law primarily include physical restrictions of scaling electronic components to levels beyond that of ordinary manufacturing principles and approaching the bounds of physics. The research presented in this book provides essential background and knowledge to grasp the following principles:
- Traditional and modern photolithography, the primary limiting factor of Moore's law
- Innovations in semiconductor manufacturing that makes current generation CMOS processing possible
- Multi-disciplinary technologies that could drive Moore's law forward significantly
- Design principles for microelectronic circuits and components that take advantage of technology miniaturization
- The semiconductor industry economic market trends and technical driving factors
The complexity and cost associated with technology scaling have compelled researchers in the disciplines of engineering and physics to optimize previous generation nodes to improve system-on-chip performance. This is especially relevant to participate in the increased attractiveness of the Internet of Things (IoT). This book additionally provides scholarly and practical examples of principles in microelectronic circuit design and layout to mitigate technology limits of previous generation nodes. Readers are encouraged to intellectually apply the knowledge derived from this book to further research and innovation in prolonging Moore's law and associated principles.
商品描述(中文翻譯)
本書提供了對摩爾定律壽命的理論和技術限制的方法論理解。該書介紹了對摩爾定律未來具有重大影響的因素,以及那些被認為能維持過去五十年趨勢的因素。研究結果表明,摩爾定律的界限主要包括將電子元件的物理限制提升到超出普通製造原則並接近物理界限的限制。本書中提出的研究提供了理解以下原則所需的基本背景和知識:
- 傳統和現代光刻技術,是摩爾定律的主要限制因素
- 半導體製造中的創新,使得當前世代的CMOS處理成為可能
- 可以顯著推動摩爾定律的多學科技術
- 利用技術微型化的微電子電路和元件設計原則
- 半導體行業經濟市場趨勢和技術驅動因素
技術尺度的複雜性和成本迫使工程和物理學研究人員優化先前世代節點,以提高系統芯片的性能。這對於參與物聯網的增加吸引力尤為重要。本書還提供了在微電子電路設計和佈局中應對先前世代節點技術限制的學術和實用示例。鼓勵讀者從本書中獲得的知識在延長摩爾定律和相關原則的研究和創新中進行智力應用。
作者簡介
Johannes Wynand Lambrechts, SMIEEE, obtained his B.Eng., M.Eng., and Ph.D. degrees in Electronic Engineering from the University of Pretoria (UP), South Africa. He achieved his M.Eng. with distinction. He has authored 2 publications in peer-reviewed journals and has presented at various local and international conferences. Wynand is the lead author on two books in the fields on sustainable energy and in microelectronic engineering, published by an international publisher. He has co-authored two contributing chapters in another book in the field of green energy and technology. He previously held a position as an electronic engineer at Denel Dynamics, a state-owned company in South Africa. He is currently employed by SAAB Grintek Defence, and is also serving as a part-time research associate at the University of Johannesburg (UJ), South Africa.
Saurabh Sinha, PhD(Eng), Pr Eng, SMIEEE, FSAIEE, FSAAE, Prof Sinha obtained his B. Eng, M. Eng and Ph.D. degrees in Electronic Engineering from the University of Pretoria (UP). As a published researcher, he has authored or co-authored over 110 publications in peer-reviewed journals and at international conferences. Prof Sinha served UP for over a decade; his last service being as Director of the Carl and Emily Fuchs Institute for Microelectronics, Department of Electrical, Electronic and Computer Engineering. On 1 October 2013, Prof Sinha was appointed as Executive Dean of the Faculty of Engineering and the Built Environment (FEBE) at the University of Johannesburg (UJ). Prof Sinha is currently the UJ Deputy Vice-Chancellor: Research and Internationalisation. Among other leading roles, Prof Saurabh Sinha also served the IEEE as a Board of Director and IEEE Vice-President: Educational Activities.
Jassem Abdallah received his BSc in Chemical Engineering from The University of Texas at Austin with honors (undergraduate research thesis), and both his MSc and PhD in Chemical Engineering from the Georgia Institute of Technology. He completed postdoctoral research assignments at the Georgia Institute of Technology, the IBM Corporation, and the University of Johannesburg. His research background spans both Materials Science Engineering and Process Development Engineering, with a focus on semiconductor technology and organic electronic applications. He has several years of research experience working in both academic-scale, 100 mm class 100 cleanroom facilities as well as state-of-the-art 300 mm class 10 semiconductor R&D facilities. Jassem Abdallah's research focuses on the development of processes and functional materials for microelectronics applications. He has publications, patents, and invention disclosures in the fields of advanced semiconductor patterning via Directed Self Assembly (DSA); novel methods of processing thin films containing functional materials; and chemical surface modification of polymers, thin films, and substrates.
Jaco Prinsloo received his B.Eng in Electronic Engineering from the University of Pretoria in 2015. He is currently employed as an embedded engineer and software developer, where his work focuses on the development of cryptographic technology.
作者簡介(中文翻譯)
Johannes Wynand Lambrechts, SMIEEE,從南非普利托利亞大學(UP)獲得電子工程的學士、碩士和博士學位。他以優異成績獲得碩士學位。他在同行評審期刊上發表了2篇論文,並在各種本地和國際會議上發表演講。Wynand是一本國際出版社出版的可持續能源和微電子工程領域的兩本書的主要作者。他在另一本關於綠色能源和技術領域的書中也共同撰寫了兩個章節。他曾在南非國有企業Denel Dynamics擔任電子工程師職位。他目前在南非的SAAB Grintek Defence工作,同時也擔任約翰內斯堡大學(UJ)的兼職研究助理。
Saurabh Sinha, PhD(Eng),Pr Eng,SMIEEE,FSAIEE,FSAAE,Sinha教授從普利托利亞大學(UP)獲得了電子工程的學士、碩士和博士學位。作為一位發表過的研究人員,他在同行評審期刊和國際會議上發表或共同發表了超過110篇論文。Sinha教授在普利托利亞大學(UP)服務了十多年,最後擔任電氣、電子和計算機工程系的Carl and Emily Fuchs微電子研究所所長。2013年10月1日,Sinha教授被任命為約翰內斯堡大學(UJ)工程與建築環境學院(FEBE)的執行院長。Sinha教授目前擔任UJ副校長:研究與國際化。除其他領導職務外,Saurabh Sinha教授還擔任IEEE董事會成員和IEEE副主席:教育活動。
Jassem Abdallah在美國德克薩斯大學奧斯汀分校獲得化學工程學士學位(榮譽學位)並進行了本科研究論文,並在喬治亞理工學院獲得了化學工程碩士和博士學位。他在喬治亞理工學院、IBM公司和約翰內斯堡大學完成了博士後研究任務。他的研究背景涵蓋了材料科學工程和工藝開發工程,專注於半導體技術和有機電子應用。他在學術規模的100 mm級100無塵室設施以及最先進的300 mm級10半導體研發設施中擁有數年的研究經驗。Jassem Abdallah的研究重點是開發微電子應用的工藝和功能材料。他在先進半導體圖案化通過定向自組裝(DSA)的方法、處理含有功能材料的薄膜的新方法以及聚合物、薄膜和基板的化學表面改性方面有發表物、專利和發明披露。
Jaco Prinsloo於2015年從普利托利亞大學獲得電子工程學士學位。他目前在一家嵌入式工程師和軟體開發人員的職位上工作,他的工作重點是加密技術的開發。
