Verfügbarkeit: Low Power Circuit Design Using Advanced CMOS Technology /

Low Power Circuit Design Using Advanced CMOS Technology /:

Offers a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk.

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Bibliographische Detailangaben
Weitere Verfasser:	Zhang, Milin (HerausgeberIn), Wang, Zhihua (HerausgeberIn), Van der Spiegel, Jan (HerausgeberIn), Maloberti, F. (Franco) (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Aalborg, Denmark : River Publishers, [2018]
Schriftenreihe:	Tutorials in circuits and systems.
Schlagworte:	Electronic circuits. Semiconductors > Technological innovations. Circuits électroniques. Semi-conducteurs > Innovations. TECHNOLOGY & ENGINEERING > Mechanical. Electronic circuits
Online-Zugang:	Volltext
Zusammenfassung:	Offers a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk.
Beschreibung:	60 HTC Incredible 44% IC Suppliers don't need their own Fabs
Beschreibung:	1 online resource (554 pages)
ISBN:	879360999X 9788793609990 1523139064 9781523139064

Internformat

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245	0	0	\|a Low Power Circuit Design Using Advanced CMOS Technology / \|c editors, Milin Zhang [and three others].
264		1	\|a Aalborg, Denmark : \|b River Publishers, \|c [2018]
300			\|a 1 online resource (554 pages)
336			\|a text \|b txt \|2 rdacontent
337			\|a computer \|b c \|2 rdamedia
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490	1		\|a Tutorials in Circuits and Systems
505	0		\|a Front Cover; Tiltle Page -- Low Power Circuit Design Using Advanced CMOS Technology; Series Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 01 -- Semiconductor Innovation -- a Continuum of Opportunities; THE CHANGING WORLD; 1 Smaller Number of Players for Leading Edge Nodes; 2 Theme of this Talk; 3 Recent Acquisitions of Start-up Companies; 4 Changes Occurring at an Amazing Rate! (I); 5 Changes Occurring at an Amazing Rate! (II); 6 Semiconductors Drive the Electronics Food Chain ... ; INDUSTRY BACKGROUND AND CHALLENGES
505	8		\|a 7 The Electronics System Industry8 Technology Scaling Basics; 9 Some Definitions; 10 Nanometers (nm) ... a Matter of Scale; 11 1970 Intel 4004 ... 2.3 K Transistors Today ...>2B Transistors; 12 We have come a LONG way! ... yet a LONG Way to go!; 13 Economics of Moore's Law; 14 Moore's Scaling ... is it at the limit?; 15 Voltage Scaling Evolution; 16 Previous Predictions of the End; 17 Moore Scaling ... many TECHNICAL challenges; 18 Rising Design Cost and Complexity; 19 Economic Challenges are Threatening; 20 Cost Reduction thru Technology Scaling
505	8		\|a 21 Intel's Approach to Tech Scaling and Feature Enhancements22 Die Cost Reduction thru Defect Reduction/Yield Improvement; 23 Cost Reduction thru Wafer Diameter Increase; 24 Cost per Transistor has been Reduced Consistently; 25 Cost per Transistor Reduction by Wafer Size and Node; 26 "More than Moore" Activities; MARKET DRIVERS; 27 Mobile Wireless Evolution; 28 The "Internet of Things"; 29 "The future is already here ... "; 30 The Internet of Everything is growing fast; 31 Increasing Adoption of Technology in lives around the world; 32 The Internet is significantly challenged
505	8		\|a 33 Automotive Semiconductor content increasing34 Electronics Value Chain ... Auto Nav System; 35 Multi-Tiers of Value Chain and Ecosystems; 36 Markets and Opportunities are exploding!; OPPORTUNITIES; 37 Many Smartphone Features; 38 Smartphones -- Looking Inside; 39 MANY Levels of Innovation; 40 Leading Technology Advances from IMEC ... July 2017; 41 Product Innovation Through Early Co-Design; 42 HTC Desire Smartphone uses Qualcomm's MSM 8255; 43 An example; 44 Applying SoC technologies in "Adjacent" Markets; 45 Qualcomm -- moving to Integrated Platforms
505	8		\|a 46 Intelligence everywhere ... needs many technical solutions -47 Enabling the Secure Connected Car of Tomorrow; 48 Today's Wearables; 49 New Techniques; 50 The Internet of Things (IoT); 51 The Skyworks View ... 51; 52 Expand Focus on holistic SOLUTIONS; 53 Technology Transitions driven by Power & Innovations; 54 A history of Design & Technology Innovations; 55 Beyond CMOS Computing; 56 Enhanced capabilities but more complex processes; 57 Semiconductor Industry "Pillars"; 58 Vertically Integrated IDM approach now practiced at fewer companies; 59 Electronics Value Chain ... Smartphones
500			\|a 60 HTC Incredible 44% IC Suppliers don't need their own Fabs
588	0		\|a Online resource; title from digital title page (viewed on February 13, 2019).
520	8		\|a Offers a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk. \|b Low Power Circuit Design Using Advanced CMOS Technology is a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk. ACTS is a joint activity supported by the IEEE Circuit and System Society (CASS) and the IEEE Solid-State Circuits Society (SSCS). The goal of the school is to provide society members as well researchers and engineers from industry the opportunity to learn about new emerging areas from leading experts in the field. ACTS is an example of high-level continuous education for junior engineers, teachers in academe, and students. ACTS was the results of a successful collaboration between societies, the local chapter leaders, and industry leaders. This summer school was the brainchild of Dr. Zhihua Wang, with strong support from volunteers from both the IEEE SSCS and CASS. In addition, the local companies, Synopsys China and Beijing IC Park, provided support. This first ACTS was held in the summer 2017 in Beijing. The lectures were given by academic researchers and industry experts, who presented each 6-hour long lectures on topics covering process technology, EDA skill, and circuit and layout design skills. The school was hosted and organized by the CASS Beijing Chapter, SSCS Beijing Chapter, and SSCS Tsinghua Student Chapter. The co-chairs of the first ACTS were Dr. Milin Zhang, Dr. Hanjun Jiang and Dr. Liyuan Liu. The first ACTS was a great success as illustrated by the many participants from all over China as well as by the publicity it has been received in various media outlets, including Xinhua News, one of the most popular news channels in China.
650		0	\|a Electronic circuits. \|0 http://id.loc.gov/authorities/subjects/sh85042279
650		0	\|a Semiconductors \|x Technological innovations.
650		6	\|a Circuits électroniques.
650		6	\|a Semi-conducteurs \|x Innovations.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Mechanical. \|2 bisacsh
650		7	\|a Electronic circuits \|2 fast
700	1		\|a Zhang, Milin, \|e editor.
700	1		\|a Wang, Zhihua, \|e editor.
700	1		\|a Van der Spiegel, Jan, \|e editor.
700	1		\|a Maloberti, F. \|q (Franco), \|e editor. \|1 https://id.oclc.org/worldcat/entity/E39PCjHcjRdWQVppX6RJ6Vkpbm \|0 http://id.loc.gov/authorities/names/nr92013421
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776	0	8	\|i Print version: \|a Zhang, Milin. \|t Low Power Circuit Design Using Advanced CMOS Technology. \|d Aalborg : River Publishers, ©2018
830		0	\|a Tutorials in circuits and systems. \|0 http://id.loc.gov/authorities/names/no2017141783
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Datensatz im Suchindex

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contents	Front Cover; Tiltle Page -- Low Power Circuit Design Using Advanced CMOS Technology; Series Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 01 -- Semiconductor Innovation -- a Continuum of Opportunities; THE CHANGING WORLD; 1 Smaller Number of Players for Leading Edge Nodes; 2 Theme of this Talk; 3 Recent Acquisitions of Start-up Companies; 4 Changes Occurring at an Amazing Rate! (I); 5 Changes Occurring at an Amazing Rate! (II); 6 Semiconductors Drive the Electronics Food Chain ... ; INDUSTRY BACKGROUND AND CHALLENGES 7 The Electronics System Industry8 Technology Scaling Basics; 9 Some Definitions; 10 Nanometers (nm) ... a Matter of Scale; 11 1970 Intel 4004 ... 2.3 K Transistors Today ...>2B Transistors; 12 We have come a LONG way! ... yet a LONG Way to go!; 13 Economics of Moore's Law; 14 Moore's Scaling ... is it at the limit?; 15 Voltage Scaling Evolution; 16 Previous Predictions of the End; 17 Moore Scaling ... many TECHNICAL challenges; 18 Rising Design Cost and Complexity; 19 Economic Challenges are Threatening; 20 Cost Reduction thru Technology Scaling 21 Intel's Approach to Tech Scaling and Feature Enhancements22 Die Cost Reduction thru Defect Reduction/Yield Improvement; 23 Cost Reduction thru Wafer Diameter Increase; 24 Cost per Transistor has been Reduced Consistently; 25 Cost per Transistor Reduction by Wafer Size and Node; 26 "More than Moore" Activities; MARKET DRIVERS; 27 Mobile Wireless Evolution; 28 The "Internet of Things"; 29 "The future is already here ... "; 30 The Internet of Everything is growing fast; 31 Increasing Adoption of Technology in lives around the world; 32 The Internet is significantly challenged 33 Automotive Semiconductor content increasing34 Electronics Value Chain ... Auto Nav System; 35 Multi-Tiers of Value Chain and Ecosystems; 36 Markets and Opportunities are exploding!; OPPORTUNITIES; 37 Many Smartphone Features; 38 Smartphones -- Looking Inside; 39 MANY Levels of Innovation; 40 Leading Technology Advances from IMEC ... July 2017; 41 Product Innovation Through Early Co-Design; 42 HTC Desire Smartphone uses Qualcomm's MSM 8255; 43 An example; 44 Applying SoC technologies in "Adjacent" Markets; 45 Qualcomm -- moving to Integrated Platforms 46 Intelligence everywhere ... needs many technical solutions -47 Enabling the Secure Connected Car of Tomorrow; 48 Today's Wearables; 49 New Techniques; 50 The Internet of Things (IoT); 51 The Skyworks View ... 51; 52 Expand Focus on holistic SOLUTIONS; 53 Technology Transitions driven by Power & Innovations; 54 A history of Design & Technology Innovations; 55 Beyond CMOS Computing; 56 Enhanced capabilities but more complex processes; 57 Semiconductor Industry "Pillars"; 58 Vertically Integrated IDM approach now practiced at fewer companies; 59 Electronics Value Chain ... Smartphones
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discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
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Smartphones</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">60 HTC Incredible 44% IC Suppliers don't need their own Fabs</subfield></datafield><datafield tag="588" ind1="0" ind2=" "><subfield code="a">Online resource; title from digital title page (viewed on February 13, 2019).</subfield></datafield><datafield tag="520" ind1="8" ind2=" "><subfield code="a">Offers a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk.</subfield><subfield code="b">Low Power Circuit Design Using Advanced CMOS Technology is a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk. ACTS is a joint activity supported by the IEEE Circuit and System Society (CASS) and the IEEE Solid-State Circuits Society (SSCS). The goal of the school is to provide society members as well researchers and engineers from industry the opportunity to learn about new emerging areas from leading experts in the field. ACTS is an example of high-level continuous education for junior engineers, teachers in academe, and students. ACTS was the results of a successful collaboration between societies, the local chapter leaders, and industry leaders. This summer school was the brainchild of Dr. Zhihua Wang, with strong support from volunteers from both the IEEE SSCS and CASS. In addition, the local companies, Synopsys China and Beijing IC Park, provided support. This first ACTS was held in the summer 2017 in Beijing. The lectures were given by academic researchers and industry experts, who presented each 6-hour long lectures on topics covering process technology, EDA skill, and circuit and layout design skills. The school was hosted and organized by the CASS Beijing Chapter, SSCS Beijing Chapter, and SSCS Tsinghua Student Chapter. The co-chairs of the first ACTS were Dr. Milin Zhang, Dr. Hanjun Jiang and Dr. Liyuan Liu. 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id	ZDB-4-EBA-on1078989385
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indexdate	2024-11-27T13:29:16Z
institution	BVB
isbn	879360999X 9788793609990 1523139064 9781523139064
language	English
oclc_num	1078989385
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physical	1 online resource (554 pages)
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publishDate	2018
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publisher	River Publishers,
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series	Tutorials in circuits and systems.
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spelling	Low Power Circuit Design Using Advanced CMOS Technology / editors, Milin Zhang [and three others]. Aalborg, Denmark : River Publishers, [2018] 1 online resource (554 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Tutorials in Circuits and Systems Front Cover; Tiltle Page -- Low Power Circuit Design Using Advanced CMOS Technology; Series Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 01 -- Semiconductor Innovation -- a Continuum of Opportunities; THE CHANGING WORLD; 1 Smaller Number of Players for Leading Edge Nodes; 2 Theme of this Talk; 3 Recent Acquisitions of Start-up Companies; 4 Changes Occurring at an Amazing Rate! (I); 5 Changes Occurring at an Amazing Rate! (II); 6 Semiconductors Drive the Electronics Food Chain ... ; INDUSTRY BACKGROUND AND CHALLENGES 7 The Electronics System Industry8 Technology Scaling Basics; 9 Some Definitions; 10 Nanometers (nm) ... a Matter of Scale; 11 1970 Intel 4004 ... 2.3 K Transistors Today ...>2B Transistors; 12 We have come a LONG way! ... yet a LONG Way to go!; 13 Economics of Moore's Law; 14 Moore's Scaling ... is it at the limit?; 15 Voltage Scaling Evolution; 16 Previous Predictions of the End; 17 Moore Scaling ... many TECHNICAL challenges; 18 Rising Design Cost and Complexity; 19 Economic Challenges are Threatening; 20 Cost Reduction thru Technology Scaling 21 Intel's Approach to Tech Scaling and Feature Enhancements22 Die Cost Reduction thru Defect Reduction/Yield Improvement; 23 Cost Reduction thru Wafer Diameter Increase; 24 Cost per Transistor has been Reduced Consistently; 25 Cost per Transistor Reduction by Wafer Size and Node; 26 "More than Moore" Activities; MARKET DRIVERS; 27 Mobile Wireless Evolution; 28 The "Internet of Things"; 29 "The future is already here ... "; 30 The Internet of Everything is growing fast; 31 Increasing Adoption of Technology in lives around the world; 32 The Internet is significantly challenged 33 Automotive Semiconductor content increasing34 Electronics Value Chain ... Auto Nav System; 35 Multi-Tiers of Value Chain and Ecosystems; 36 Markets and Opportunities are exploding!; OPPORTUNITIES; 37 Many Smartphone Features; 38 Smartphones -- Looking Inside; 39 MANY Levels of Innovation; 40 Leading Technology Advances from IMEC ... July 2017; 41 Product Innovation Through Early Co-Design; 42 HTC Desire Smartphone uses Qualcomm's MSM 8255; 43 An example; 44 Applying SoC technologies in "Adjacent" Markets; 45 Qualcomm -- moving to Integrated Platforms 46 Intelligence everywhere ... needs many technical solutions -47 Enabling the Secure Connected Car of Tomorrow; 48 Today's Wearables; 49 New Techniques; 50 The Internet of Things (IoT); 51 The Skyworks View ... 51; 52 Expand Focus on holistic SOLUTIONS; 53 Technology Transitions driven by Power & Innovations; 54 A history of Design & Technology Innovations; 55 Beyond CMOS Computing; 56 Enhanced capabilities but more complex processes; 57 Semiconductor Industry "Pillars"; 58 Vertically Integrated IDM approach now practiced at fewer companies; 59 Electronics Value Chain ... Smartphones 60 HTC Incredible 44% IC Suppliers don't need their own Fabs Online resource; title from digital title page (viewed on February 13, 2019). Offers a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk. Low Power Circuit Design Using Advanced CMOS Technology is a summary of lectures from the first Advanced CMOS Technology Summer School (ACTS) 2017. The slides are selected from the handouts, while the text was edited according to the lecturers talk. ACTS is a joint activity supported by the IEEE Circuit and System Society (CASS) and the IEEE Solid-State Circuits Society (SSCS). The goal of the school is to provide society members as well researchers and engineers from industry the opportunity to learn about new emerging areas from leading experts in the field. ACTS is an example of high-level continuous education for junior engineers, teachers in academe, and students. ACTS was the results of a successful collaboration between societies, the local chapter leaders, and industry leaders. This summer school was the brainchild of Dr. Zhihua Wang, with strong support from volunteers from both the IEEE SSCS and CASS. In addition, the local companies, Synopsys China and Beijing IC Park, provided support. This first ACTS was held in the summer 2017 in Beijing. The lectures were given by academic researchers and industry experts, who presented each 6-hour long lectures on topics covering process technology, EDA skill, and circuit and layout design skills. The school was hosted and organized by the CASS Beijing Chapter, SSCS Beijing Chapter, and SSCS Tsinghua Student Chapter. The co-chairs of the first ACTS were Dr. Milin Zhang, Dr. Hanjun Jiang and Dr. Liyuan Liu. The first ACTS was a great success as illustrated by the many participants from all over China as well as by the publicity it has been received in various media outlets, including Xinhua News, one of the most popular news channels in China. Electronic circuits. http://id.loc.gov/authorities/subjects/sh85042279 Semiconductors Technological innovations. Circuits électroniques. Semi-conducteurs Innovations. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Electronic circuits fast Zhang, Milin, editor. Wang, Zhihua, editor. Van der Spiegel, Jan, editor. Maloberti, F. (Franco), editor. https://id.oclc.org/worldcat/entity/E39PCjHcjRdWQVppX6RJ6Vkpbm http://id.loc.gov/authorities/names/nr92013421 has work: Low Power Circuit Design Using Advanced CMOS Technology (Text) https://id.oclc.org/worldcat/entity/E39PCGxwRVJwx6FqVCQj9VVCjP https://id.oclc.org/worldcat/ontology/hasWork Print version: Zhang, Milin. Low Power Circuit Design Using Advanced CMOS Technology. Aalborg : River Publishers, ©2018 Tutorials in circuits and systems. http://id.loc.gov/authorities/names/no2017141783 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1982639 Volltext
spellingShingle	Low Power Circuit Design Using Advanced CMOS Technology / Tutorials in circuits and systems. Front Cover; Tiltle Page -- Low Power Circuit Design Using Advanced CMOS Technology; Series Page -- Tutorials in Circuits and Systems; Copyright Page; Table of contents; Introduction; Chapter 01 -- Semiconductor Innovation -- a Continuum of Opportunities; THE CHANGING WORLD; 1 Smaller Number of Players for Leading Edge Nodes; 2 Theme of this Talk; 3 Recent Acquisitions of Start-up Companies; 4 Changes Occurring at an Amazing Rate! (I); 5 Changes Occurring at an Amazing Rate! (II); 6 Semiconductors Drive the Electronics Food Chain ... ; INDUSTRY BACKGROUND AND CHALLENGES 7 The Electronics System Industry8 Technology Scaling Basics; 9 Some Definitions; 10 Nanometers (nm) ... a Matter of Scale; 11 1970 Intel 4004 ... 2.3 K Transistors Today ...>2B Transistors; 12 We have come a LONG way! ... yet a LONG Way to go!; 13 Economics of Moore's Law; 14 Moore's Scaling ... is it at the limit?; 15 Voltage Scaling Evolution; 16 Previous Predictions of the End; 17 Moore Scaling ... many TECHNICAL challenges; 18 Rising Design Cost and Complexity; 19 Economic Challenges are Threatening; 20 Cost Reduction thru Technology Scaling 21 Intel's Approach to Tech Scaling and Feature Enhancements22 Die Cost Reduction thru Defect Reduction/Yield Improvement; 23 Cost Reduction thru Wafer Diameter Increase; 24 Cost per Transistor has been Reduced Consistently; 25 Cost per Transistor Reduction by Wafer Size and Node; 26 "More than Moore" Activities; MARKET DRIVERS; 27 Mobile Wireless Evolution; 28 The "Internet of Things"; 29 "The future is already here ... "; 30 The Internet of Everything is growing fast; 31 Increasing Adoption of Technology in lives around the world; 32 The Internet is significantly challenged 33 Automotive Semiconductor content increasing34 Electronics Value Chain ... Auto Nav System; 35 Multi-Tiers of Value Chain and Ecosystems; 36 Markets and Opportunities are exploding!; OPPORTUNITIES; 37 Many Smartphone Features; 38 Smartphones -- Looking Inside; 39 MANY Levels of Innovation; 40 Leading Technology Advances from IMEC ... July 2017; 41 Product Innovation Through Early Co-Design; 42 HTC Desire Smartphone uses Qualcomm's MSM 8255; 43 An example; 44 Applying SoC technologies in "Adjacent" Markets; 45 Qualcomm -- moving to Integrated Platforms 46 Intelligence everywhere ... needs many technical solutions -47 Enabling the Secure Connected Car of Tomorrow; 48 Today's Wearables; 49 New Techniques; 50 The Internet of Things (IoT); 51 The Skyworks View ... 51; 52 Expand Focus on holistic SOLUTIONS; 53 Technology Transitions driven by Power & Innovations; 54 A history of Design & Technology Innovations; 55 Beyond CMOS Computing; 56 Enhanced capabilities but more complex processes; 57 Semiconductor Industry "Pillars"; 58 Vertically Integrated IDM approach now practiced at fewer companies; 59 Electronics Value Chain ... Smartphones Electronic circuits. http://id.loc.gov/authorities/subjects/sh85042279 Semiconductors Technological innovations. Circuits électroniques. Semi-conducteurs Innovations. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Electronic circuits fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85042279
title	Low Power Circuit Design Using Advanced CMOS Technology /
title_auth	Low Power Circuit Design Using Advanced CMOS Technology /
title_exact_search	Low Power Circuit Design Using Advanced CMOS Technology /
title_full	Low Power Circuit Design Using Advanced CMOS Technology / editors, Milin Zhang [and three others].
title_fullStr	Low Power Circuit Design Using Advanced CMOS Technology / editors, Milin Zhang [and three others].
title_full_unstemmed	Low Power Circuit Design Using Advanced CMOS Technology / editors, Milin Zhang [and three others].
title_short	Low Power Circuit Design Using Advanced CMOS Technology /
title_sort	low power circuit design using advanced cmos technology
topic	Electronic circuits. http://id.loc.gov/authorities/subjects/sh85042279 Semiconductors Technological innovations. Circuits électroniques. Semi-conducteurs Innovations. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Electronic circuits fast
topic_facet	Electronic circuits. Semiconductors Technological innovations. Circuits électroniques. Semi-conducteurs Innovations. TECHNOLOGY & ENGINEERING Mechanical. Electronic circuits
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1982639
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