Design For Yield And Reliability For Nanometer Cmos Digital Circuits

Design for Yield and Reliability for Nanometer Cmos Digital Circuits

Author : Mostafa Hassan

Publisher : LAP Lambert Academic Publishing

Page : 296 pages

File Size : 34,3 MB

Release : 2014-01

Category :

ISBN : 9783659513619

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Book Description

The nano-age has already begun, where typical feature dimensions are smaller than 100nm. The operating frequency is expected to increase up to 12 GHz, and a single chip will contain over 40 billion transistors in 2020, as given by the International Technology Roadmap for Semiconductors (ITRS) initiative. ITRS also predicts that the scaling of CMOS devices and process technology, as it is known today, will become much more difficult as the industry advances towards the 16nm technology node and further. This aggressive scaling of CMOS technology has pushed the devices to their physical limits. Design goals are governed by several factors other than power, performance and area such as process variations, radiation induced soft errors, and aging degradation mechanisms. These new design challenges have a strong impact on the parametric yield and reliability of nanometer digital circuits and also result in functional yield losses in variation-sensitive digital circuits such as Static Random Access Memory (SRAM) and flip-flops.



Timing Performance of Nanometer Digital Circuits Under Process Variations

Author : Victor Champac

Publisher : Springer

Page : 195 pages

File Size : 37,40 MB

Release : 2018-04-18

Category : Technology & Engineering

ISBN : 3319754653

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Book Description

This book discusses the digital design of integrated circuits under process variations, with a focus on design-time solutions. The authors describe a step-by-step methodology, going from logic gates to logic paths to the circuit level. Topics are presented in comprehensively, without overwhelming use of analytical formulations. Emphasis is placed on providing digital designers with understanding of the sources of process variations, their impact on circuit performance and tools for improving their designs to comply with product specifications. Various circuit-level “design hints” are highlighted, so that readers can use then to improve their designs. A special treatment is devoted to unique design issues and the impact of process variations on the performance of FinFET based circuits. This book enables readers to make optimal decisions at design time, toward more efficient circuits, with better yield and higher reliability.



Design for Manufacturability and Yield for Nano-Scale CMOS

Author : Charles Chiang

Publisher : Springer Science & Business Media

Page : 277 pages

File Size : 45,17 MB

Release : 2007-06-15

Category : Technology & Engineering

ISBN : 1402051883

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Book Description

This book walks the reader through all the aspects of manufacturability and yield in a nano-CMOS process. It covers all CAD/CAE aspects of a SOC design flow and addresses a new topic (DFM/DFY) critical at 90 nm and beyond. This book is a must read book the serious practicing IC designer and an excellent primer for any graduate student intent on having a career in IC design or in EDA tool development.



Nanometer CMOS ICs

Author : Harry J.M. Veendrick

Publisher : Springer

Page : 639 pages

File Size : 33,88 MB

Release : 2017-04-28

Category : Technology & Engineering

ISBN : 3319475975

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Book Description

This textbook provides a comprehensive, fully-updated introduction to the essentials of nanometer CMOS integrated circuits. It includes aspects of scaling to even beyond 12nm CMOS technologies and designs. It clearly describes the fundamental CMOS operating principles and presents substantial insight into the various aspects of design implementation and application. Coverage includes all associated disciplines of nanometer CMOS ICs, including physics, lithography, technology, design, memories, VLSI, power consumption, variability, reliability and signal integrity, testing, yield, failure analysis, packaging, scaling trends and road blocks. The text is based upon in-house Philips, NXP Semiconductors, Applied Materials, ASML, IMEC, ST-Ericsson, TSMC, etc., courseware, which, to date, has been completed by more than 4500 engineers working in a large variety of related disciplines: architecture, design, test, fabrication process, packaging, failure analysis and software.



Nanometer CMOS ICs

Author : Harry Veendrick

Publisher : Springer

Page : 730 pages

File Size : 18,33 MB

Release : 2010-08-16

Category : Technology & Engineering

ISBN : 9789048119660

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Book Description

CMOS technologies account for almost 90% of all integrated circuits (ICs). This book provides an essential introduction to nanometer CMOS ICs. The contents of this book are based upon several previous publications and editions entitled 'MOS ICs' and 'Deep-Submicron CMOS ICs'. Nanometer CMOS ICs is fully updated and is not just a copy-and-paste of previous material. It includes aspects of scaling up to and beyond 32nm CMOS technologies and designs. It clearly describes the fundamental CMOS operating principles and presents substantial insight into the various aspects of design implementation and application. In contrast to other works on this topic, the book explores all associated disciplines of nanometer CMOS ICs, including physics, design, technology, yield, packaging, less-power design, variability, reliability and signal integrity. Finally it also includes extensive discussions on the trends and challenges for further scaling. The text is based upon in-house Philips and NXP Semiconductors courseware, which, to date, has been completed by more than 3000 engineers working in a large variety of related disciplines: architecture, design, test, process, packaging, failure analysis and software. Carefully structured and enriched by in-depth exercises, hundreds of colour figures and photographs and many references, the book is well-suited for the purpose of self-study.



Nanoscale CMOS VLSI Circuits: Design for Manufacturability

Author : Sandip Kundu

Publisher : McGraw-Hill Education

Page : 316 pages

File Size : 41,86 MB

Release : 2010-07-08

Category : Technology & Engineering

ISBN : 9780071635196

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Book Description

Cutting-Edge CMOS VLSI Design for Manufacturability Techniques This detailed guide offers proven methods for optimizing circuit designs to increase the yield, reliability, and manufacturability of products and mitigate defects and failure. Covering the latest devices, technologies, and processes, Nanoscale CMOS VLSI Circuits: Design for Manufacturability focuses on delivering higher performance and lower power consumption. Costs, constraints, and computational efficiencies are also discussed in the practical resource. Nanoscale CMOS VLSI Circuits covers: Current trends in CMOS VLSI design Semiconductor manufacturing technologies Photolithography Process and device variability: analyses and modeling Manufacturing-Aware Physical Design Closure Metrology, manufacturing defects, and defect extraction Defect impact modeling and yield improvement techniques Physical design and reliability DFM tools and methodologies



Analog IC Reliability in Nanometer CMOS

Author : Elie Maricau

Publisher : Springer Science & Business Media

Page : 208 pages

File Size : 22,56 MB

Release : 2013-01-11

Category : Technology & Engineering

ISBN : 1461461634

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Book Description

This book focuses on modeling, simulation and analysis of analog circuit aging. First, all important nanometer CMOS physical effects resulting in circuit unreliability are reviewed. Then, transistor aging compact models for circuit simulation are discussed and several methods for efficient circuit reliability simulation are explained and compared. Ultimately, the impact of transistor aging on analog circuits is studied. Aging-resilient and aging-immune circuits are identified and the impact of technology scaling is discussed. The models and simulation techniques described in the book are intended as an aid for device engineers, circuit designers and the EDA community to understand and to mitigate the impact of aging effects on nanometer CMOS ICs.



Design of Variation-tolerant Circuits for Nanometer CMOS Technology

Author : Mohamed Hassan Abu-Rahma

Publisher :

Page : 156 pages

File Size : 30,59 MB

Release : 2008

Category :

ISBN :

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Book Description

Aggressive scaling of CMOS technology in sub-90nm nodes has created huge challenges. Variations due to fundamental physical limits, such as random dopants fluctuation (RDF) and line edge roughness (LER) are increasing significantly with technology scaling. In addition, manufacturing tolerances in process technology are not scaling at the same pace as transistor's channel length due to process control limitations (e.g., sub-wavelength lithography). Therefore, within-die process variations worsen with successive technology generations. These variations have a strong impact on the maximum clock frequency and leakage power for any digital circuit, and can also result in functional yield losses in variation-sensitive digital circuits (such as SRAM). Moreover, in nanometer technologies, digital circuits show an increased sensitivity to process variations due to low-voltage operation requirements, which are aggravated by the strong demand for lower power consumption and cost while achieving higher performance and density. It is therefore not surprising that the International Technology Roadmap for Semiconductors (ITRS) lists variability as one of the most challenging obstacles for IC design in nanometer regime. To facilitate variation-tolerant design, we study the impact of random variations on the delay variability of a logic gate and derive simple and scalable statistical models to evaluate delay variations in the presence of within-die variations. This work provides new design insight and highlights the importance of accounting for the effect of input slew on delay variations, especially at lower supply voltages.



Engineering the CMOS Library

Author : David Doman

Publisher : John Wiley & Sons

Page : 353 pages

File Size : 40,35 MB

Release : 2012-02-17

Category : Technology & Engineering

ISBN : 1118273133

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Book Description

Shows readers how to gain the competitive edge in the integrated circuit marketplace This book offers a wholly unique perspective on the digital design kit. It points to hidden value in the safety margins of standard-cell libraries and shows design engineers and managers how to use this knowledge to beat the competition. Engineering the CMOS Library reveals step by step how the generic, foundry-provided standard-cell library is built, and how to extract value from existing std-cells and EDA tools in order to produce tighter-margined, smaller, faster, less power-hungry, and more yield-producing integrated circuits. It explores all aspects of the digital design kit, including the different views of CMOS std-cell libraries along with coverage of IO libraries, memory compilers, and small analog blocks. Readers will learn: How to work with overdesigned std-cell libraries to improve profitability while maintaining safety How functions usually found in std-cell libraries cover the design environment, and how to add any missing functions How to harness the characterization technique used by vendors to add characterization without having to get it from the vendor How to use verification and validation techniques to ensure proper descriptive views and even fix inconsistencies in vendor release views How to correct for possible conflicts arising from multiple versions and different vendor sources in any given integrated circuit design Complete with real-world case studies, examples, and suggestions for further research, Engineering the CMOS Library will help readers become more astute designers.



Statistical Yield Analysis and Design for Nanometer VLSI

Author : Javid Jaffari

Publisher :

Page : 159 pages

File Size : 38,9 MB

Release : 2010

Category :

ISBN :

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Book Description

Process variability is the pivotal factor impacting the design of high yield integrated circuits and systems in deep sub-micron CMOS technologies. The electrical and physical properties of transistors and interconnects, the building blocks of integrated circuits, are prone to significant variations that directly impact the performance and power consumption of the fabricated devices, severely impacting the manufacturing yield. However, the large number of the transistors on a single chip adds even more challenges for the analysis of the variation effects, a critical task in diagnosing the cause of failure and designing for yield. Reliable and efficient statistical analysis methodologies in various design phases are key to predict the yield before entering such an expensive fabrication process. In this thesis, the impacts of process variations are examined at three different levels: device, circuit, and micro-architecture. The variation models are provided for each level of abstraction, and new methodologies are proposed for efficient statistical analysis and design under variation.