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PRINCIPLES OF CMOS VLSI DESIGN A Systems Perspective Second Edition
Neil Weste,Kamran Eshraghian +1 more
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Abstract:
Introduction to CMOS Circuits. Introduction. MOS Transistors. MOS Transistor Switches. CMOS Logic. Circuit Representations. CMOS Summary. MOS Transistor Theory. Introduction. MOS Device Design Equation. The Complemenatry CMOS Inverter-DC Characteristics. Alternate CMOS Inverters. The Differential Stage. The Transmission Gate. Bipolar Devices. CMOS Processing Technology. Silicon Semiconductor Technology: An Overview. CMOS Technologies. Layout Design Rules. CAD Issues. Circuit Characterization and Performance Estimation. Introduction. Resistance Estimation. Capacitance Estimation. Inductance. Switching Characteristics. CMOS Gate Transistor Sizing. Power Consumption. Determination of Conductor Size. Charge Sharing. Design Margining. Yield. Scaling of MOS Transistor Dimensions. CMOS Circuit and Logic Design. Introduction. CMOS Logic Structures. Basic Physical Design of Simple Logic Gates. Clocking Strategies. Physical and Electrical Design of Logic Gates. 10 Structures. Structured Design Strategies. Introduction. Design Economics. Design Strategies. Design Methods. CMOS Chip Design Options. Design Capture Tools. Design Verification Tools. CMOS Test Methodolgies. Introduction. Fault Models. Design for Testability. Automatic Test Pattern Generation. Design for Manufacturability. CMOS Subsystem Design. Introduction. Adders and Related Functions. Binary Counters. Multipliers and Filter Structures. Random Access and Serial Memory. Datapaths. FIR and IIR Filters. Finite State Machines. Programmable Logic Arrays. Random Control Logic.read more
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Journal ArticleDOI
Low-power CMOS digital design
TL;DR: In this paper, techniques for low power operation are presented which use the lowest possible supply voltage coupled with architectural, logic style, circuit, and technology optimizations to reduce power consumption in CMOS digital circuits while maintaining computational throughput.
Proceedings ArticleDOI
Silicon physical random functions
TL;DR: It is argued that a complex integrated circuit can be viewed as a silicon PUF and a technique to identify and authenticate individual integrated circuits (ICs) is described.
Journal ArticleDOI
Minimizing power consumption in digital CMOS circuits
TL;DR: An approach is presented for minimizing power consumption for digital systems implemented in CMOS which involves optimization at all levels of the design and has been applied to the design of a chipset for a portable multimedia terminal that supports pen input, speech I/O and full-motion video.
Journal ArticleDOI
Extracting secret keys from integrated circuits
TL;DR: It is shown that arbiter-based PUFs are realizable and well suited to build key-cards that need to be resistant to physical attacks and to be identified securely and reliably over a practical range of environmental variations such as temperature and power supply voltage.
Book
Algorithms for VLSI Physical Design Automation
TL;DR: This book is a core reference for graduate students and CAD professionals and presents a balance of theory and practice in a intuitive manner.