Digital Integrated Circuit Design

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Preface; 1. THE BASICS; 1.1 Simple NMOS Logic Gates; 1.2 Simple CMOS Logic Gates; 1.3 Computer Simulation; 1.4 Transfer Curves and Noise Margins; 1.5 Gate Delays and Rise and Fall Times; 1.6 Transient Response; 1.7 An RC Approximation to the Transient Response of a CMOS Inverter; 1.8 Summary; 1.9 Bibliography; 1.10 Problems; 2. PROCESSING, LAYOUT, AND RELATED ISSUES; 2.1 CMOS Processing; 2.2 Bipolar Processing; 2.3 CMOS Layout and Design Rules; 2.4 Advanced CMOS Processing; 2.5 Bibliography; 2.6 Problems; 3. INTEGRATED-CIRCUIT DEVICES AND MODELING; 3.1 Simplified Transistor Modeling; 3.2 Semiconductors and pn Junctions; 3.3 MOS Transistors; 3.4 Advanced MOS Modeling; 3.5 Bipolar-Junction Transistors; 3.6 SPICE-Modeling Parameters; 3.7 Appendix; 3.8 SPICE Simulations; 4. TRADITIONAL MOS DESIGN; 4.1 Pseudo-NMOS Logic; 4.2 Pseudo-NMOS Logic Gates; 4.3 Transistor Equivalency; 4.4 CMOS Logic; 4.5 CMOS Gate Design; 4.6 SPICE Simulations; 4.7 Bibliography; 4.8 Problems; 5. TRANSMISSION-GATE AND FULLY DIFFERENTIAL CMOS LOGIC; 5.1 Transmission-Gate Logic Design; 5.2 Differential CMOS Circuits; 5.3 Bibliography; 5.4 Problems; 6. CMOS TIMING AND I/O CONSIDERATIONS; 6.1 Delay of MOS Circuits; 6.2 Input/Output Circuits; 6.3 Bibliography; 6.4 Problems; 7. LATCHES, FLIP-FLOPS, AND SYNCHRONOUS SYSTEM DESIGN; 7.1 CMOS Clocked Latches; 7.2 Flip-flops; 7.3 CMOS Flip-flops; 7.4 Synchronous System Design Techniques; 7.5 Synchronous System Examples; 7.6 Bibliography; 7.7 Problems; 8. BIPOLAR AND BICMOS LOGIC GATES; 8.1 Emitted-Coupled Logic Gates; 8.2 Current-Mode Logic; 8.3 BiCMOS; 8.4 SPICE Simulations; 8.5 Bibliography; 8.6 Problems; 9. ADVANCED CMOS LOGIC DESIGN; 9.1 Pseudo-NMOS and Dynamic Precharging; 9.2 Domino-CMOS Logic; 9.3 No-Race-Logic; 9.4 Single-Phase Dynamic Logic; 9.5 Differential CMOS; 9.6 Dynamic Differential Logic; 9.7 Bibliography; 9.8 Problems; 10. DIGITAL INTEGRATED SYSTEM BUILDING BLOCKS; 10.1 Multiplexors and Decoders; 10.2 Barrel Shifters; 10.3 Counters; 10.4 Digital Adders; 10.5 Digital Multipliers; 10.6 Programmable Logic Arrays; 10.7 Bibliography; 10.8 Problems; 11. INTEGRATED MEMORIES; 11.1 Static Random-Access Memories; 11.2 Static Random-Access Memory Storage Cells; 11.3 Address Buffers and Decoders; 11.4 Dynamic Bus Precharge and Address-Transition-Detect Circuits; 11.5 Modifications for Large Static Random-Access Memories; 11.6 Dynamic Random-Access Memories; 11.7 Read-Only Memories; 11.8 Bibliography; 11.9 Problems; 12. GAAS DIGITAL CIRCUITS; 12.1 Introduction; 12.2 GaAs Processing and Components; 12.3 MESFET Modeling; 12.4 MESFET Second-Order Effects; 12.5 Logic Design with MESFETs; 12.6 Capacitively Enhanced Logic; 12.7 GaAs Logic Family Comparison; 12.8 Heterojunction Bipolar Technology; 12.9 Bibliography; 12.10 Problems; 13. DIGITAL SYSTEM TESTING; 13.1 Conservative Design Principles; 13.2 Scan-Design Techniques; 13.3 Localized Test-Vector Generation and Test-Output Compression Techniques; 13.4 Boundary-Scan Testing; 13.5 Bibliography; 13.6 Problems
Working from the fundamentals of transistor-level design and building up to system-level considerations, Digital Integrated Circuit Design shows students with minimal background in electronics how to design state-of-the-art high performance digital integrated circuits. Ideal as an upper-levelundergraduate text, it can also be used in first-year graduate courses and as a reference for practicing engineers. Digital Integrated Circuit Design: BL Presents transistor-level details first, building up to system considerations BL Emphasizes CMOS technology but also includes in-depth explanations of designing in bipolar, BiCMOS, and GaAs technologies BL Features modern, well-designed examples and problems BL Covers important system-level considerations such as timing, pipelining, clock distribution, and system building blocks in detail BL Discusses key elements of semiconductor physics, integrated circuit processing, transistor-level design, logic-level design, system-level design, testing, and moreBL Provides physical and intuitive explanations throughout BL Emphasizes conceptual thinking and design methodology over detailed circuit analysis techniques

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Autor: Kenneth W. Martin
ISBN-13 :: 9780195125849
ISBN: 0195125843
Erscheinungsjahr: 01.09.1999
Verlag: OXFORD UNIV PR
Gewicht: 1139g
Seiten: 560
Sprache: Englisch
Sonstiges: Buch, 242x194x30 mm
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