ABSTRACT

Over the years, the fundamentals of VLSI technology have evolved to include a wide range of topics and a broad range of practices. To encompass such a vast amount of knowledge, The VLSI Handbook focuses on the key concepts, models, and equations that enable the electrical engineer to analyze, design, and predict the behavior of very large-scale int

chapter |3 pages

Section I VLSI Technology

chapter 1|23 pages

VLSI Technology

chapter 2|29 pages

CMOS/BiCMOS Technology

chapter 3|28 pages

Bipolar Technology

chapter 4|16 pages

Silicon on Insulator Technology

chapter 5|15 pages

SiGe Technology

chapter 6|33 pages

SiC Technology

chapter 7|13 pages

Passive Components

chapter 8|25 pages

Power IC Technologies

chapter 9|21 pages

Noise in VLSI Technologies

chapter 10|71 pages

Micromachining

chapter 11|17 pages

Microelectronics Packaging

chapter 12|14 pages

Multichip Module Technologies

part |2 pages

Section II Devices and Their Models

chapter 14|24 pages

Bipolar Junction Transistor (BJT) Circuits

chapter 15|25 pages

RF Passive IC Components

chapter 16|22 pages

Analog Circuit Simulation

chapter 17|30 pages

Interconnect Modeling and Simulation

chapter 19|42 pages

CMOS Amplifier Design

chapter 20|57 pages

Bipolar Amplifier Design

chapter 21|49 pages

High-Frequency Amplifiers

chapter 22|19 pages

Operational Transconductance Amplifiers

chapter |3 pages

Section V Logic Design

chapter 23|7 pages

Expressions of Logic Functions

chapter 24|10 pages

Basic Theory of Logic Functions

chapter 25|12 pages

Simplification of Logic Expressions

chapter 26|15 pages

Binary Decision Diagrams

chapter 28|20 pages

Sequential Networks with AND and OR Gates

chapter 30|13 pages

Logic Properties of Transistor Circuits

chapter 34|25 pages

Logic Synthesizer by the Transduction Method

chapter 35|14 pages

Emitter-Coupled Logic

chapter 36|11 pages

CMOS

chapter 37|12 pages

Pass Transistors

chapter 38|13 pages

Adders

chapter 39|8 pages

Multipliers

chapter 40|10 pages

Dividers

chapter 41|6 pages

Full-Custom and Semi-Custom Design

chapter 42|11 pages

Programmable Logic Devices

chapter 43|6 pages

Mask-Programmable Gate Arrays

chapter 44|11 pages

Field-Programmable Gate Arrays

chapter 45|4 pages

Cell-Library Design Approach

chapter 46|6 pages

Field-Programmable Gate Arrays

part |2 pages

Section VI Memory, Registers, and System Timing

chapter 47|33 pages

System Timing

chapter 48|10 pages

ROM/PROM/EPROM

chapter 49|18 pages

SRAM

chapter 50|20 pages

Embedded Memory

chapter 51|42 pages

Flash Memories

chapter 52|17 pages

Dynamic Random Access Memory

chapter 53|40 pages

Low-Power Memory Circuits

chapter 54|31 pages

Nyquist-Rate ADC and DAC

chapter 56|28 pages

RF Communication Circuits

chapter 57|30 pages

PLL Circuits

chapter 58|33 pages

Continuous-Time Filters

chapter 59|33 pages

Switched-Capacitor Filters

chapter 60|31 pages

Timing and Signal Integrity Analysis

chapter 61|17 pages

Microprocessor Design Verification

chapter 62|29 pages

Microprocessor Layout Method

chapter 63|23 pages

Architecture

chapter 64|29 pages

ASIC Design

chapter 66|6 pages

Testability Concepts and DFT

chapter 67|15 pages

ATPG and BIST

chapter 68|22 pages

CAD Tools for BIST/DFT and Delay Faults

chapter 69|6 pages

Materials

chapter 71|18 pages

Logic Design Principles and Examples

chapter 72|28 pages

Design of MESFET and HEMT Logic Circuits

chapter 74|19 pages

System-Level Design

chapter 76|43 pages

Performance Modeling and Analysis in VHDL

chapter 78|41 pages

Design Automation Technology Roadmap

chapter 80|24 pages

Design Languages

chapter 81|15 pages

Hardware Description in Verilog

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