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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.
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.
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CMOS (complementary metal oxide semiconductor) is a key digital integrated circuit technology that is widely used throughout the wireless communications industry. This resource offers guidance on designing CMOS RF integrated circuits. It provides design details on elemental and advanced CMOS RF circuits.
This edition provides an important contemporary view of a wide range of analog/digital circuit blocks, the BSIM model, data converter architectures, and more. The authors develop design techniques for both long- and short-channel CMOS technologies and then compare the two.
CMOS chips are becoming increasingly important in computer circuitry. They have been widely used during the past decade, and they will continue to grow in popularity in those application areas that demand high performance. Challenging the prevailing opinion that circuit simulation can reveal all problems in CMOS circuits, Masakazu Shoji maintains that simulation cannot completely remove the often costly errors that occur in circuit design. To address the failure modes of these circuits more fully, he presents a new approach to CMOS circuit design based on his systematizing of circuit design error and his unique theory of CMOS digital circuit operation. In analyzing CMOS digital circuits, the author focuses not on effects originating from the characteristics of the device (MOSFET) but on those arising from their connection. This emphasis allows him to formulate a powerful but ultimately simple theory explaining the effects of connectivity by using a concept of the states of the circuits, called microstates. Shoji introduces microstate sequence diagrams that describe the state changes (or the circuit connectivity changes), and he uses his microstate theory to analyze many of the conventional CMOS digital circuits. These analyses are practically all in closed-form, and they provide easy physical interpretation of the circuit's working mechanisms, the parametric dependence of performance, and the circuit's failure modes. Originally published in 1992. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
Radio-Frequency Integrated-Circuit Engineering addresses the theory, analysis and design of passive and active RFIC's using Si-based CMOS and Bi-CMOS technologies, and other non-silicon based technologies. The materials covered are self-contained and presented in such detail that allows readers with only undergraduate electrical engineering knowledge in EM, RF, and circuits to understand and design RFICs. Organized into sixteen chapters, blending analog and microwave engineering, Radio-Frequency Integrated-Circuit Engineering emphasizes the microwave engineering approach for RFICs. * Provides essential knowledge in EM and microwave engineering, passive and active RFICs, RFIC analysis and design techniques, and RF systems vital for RFIC students and engineers * Blends analog and microwave engineering approaches for RFIC design at high frequencies * Includes problems at the end of each chapter
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.