书籍详情
现代VLSI电路设计:芯片系统设计(第三版 英文影印版)
作者:(美)Wayne Wolf
出版社:Pearson Education
出版时间:2003-03-01
ISBN:9787030111494
定价:¥48.00
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内容简介
适用于电子工程和计算机工程的课程,含盖超大规模集成电路(VLSI)及系统的设计技术。也可以作为专业VLSI设计工程师、设计经理、CAD工程师的参考书。本书提供了一种对VLSI系统设计的综合的纵览,从物理设计到系统结构。VLSI系统设计人员必须面对诸多挑战包括高性能、交差时延、低耗能、低费用、快速的设计周转时间。成功的设计者必须理解整个设计过程。第三版对硬件描述语言进行了更彻底的讨论,包括Verilog和VHDL,这本书一本书中介绍了整个VLSI设计过程。本书介绍了完整的VLSI设计过程——从物理设计到系
作者简介
暂缺《现代VLSI电路设计:芯片系统设计(第三版 英文影印版)》作者简介
目录
Preface to the Third Edition
Preface to the Second Edition
Preface
1 Digital Systems and VLSI
1.1 Why Design Integrated Circuits?
1.2 Integrated Circuit Manufacturing
1.3 CMOS Technology
1.4 Integrated Circuit Design Techniques
1.5 A Look into the Future
1.6 Summary
1.7 References
1.8 Problems
2 Transistors and Layout
2.1 Introduction
2.2 Fabrication Processes
2.3 Transistors
2.4 Wires and Vias
2.5 Design Rules
2.6 Layout Design and Tools
2.7 References
2.8 Problems
3 Logic Gates
3.1 Introduction
3.2 Combinational Logic Functions
3.3 Static Complementary Gates
3.4 Switch Logic
3.5 Alternative Gate Circuits
3.6 Low-Power Gates
3.7 Delay Through Resistive Interconnect
3.8 Delay Through Inductive Interconnect
3.9 References
3.10 Problems
4 Combinational Logic Networks
4.1 Introduction
4.2 Standard Cell-Based Layout
4.3 Simulation
4.4 Combinational Network Delay
4.5 Logic and Interconnect Design
4.6 Pwer Optimization
4.7 Switch Logic Networks
4.8 Combinational Logic Testing
4.9 References
4.10 Problems
5 Seqential Machines
5.1 Introduction
5.2 Latches and Flip-Flops
5.3 Sequential Systems and Clocking Disciplines
5.4 Sequential System Design
5.5 Power Optimaization
5.6 Design Validation
5.7 Sequential Testing
5.8 References
5.9 Problems
6 Subsystem Design
6.1 Introduction
6.2 Subsystem Design Principles
6.3 Combinational Shifers
6.4 Adders
6.5 ALUs
6.6 Multipliers
6.7 High-Density Memory
6.8 Field-Programmable Gate Arrays
6.9 Programmable Logic Arrays
6.10 Refernces
6.11 Problems
7 Floorplanning
7.1 Introduction
7.2 Floorplanning Methods
7.3 Off-Chip Connections
7.4 References
7.5 Problems
8 Architecture Design
8.1 Introduction
8.2 Hardware Description Languages
8.3 Register-Transfer Design
8.4 High-Level Synchesis
8.5 Architectures for Low Power
8.6 Systems-on-Chips and Embedded CPUs
8.7 Architecture Testing
8.8 References
8.9 Problems
9 Chip Design
9.1 Introduction
9.2 Design Methodologies
9.3 Kitchen Timer Chip
9.4 Microprocessor Data Path
9.5 References
9.6 Problems
10 CAD Systems and Algorithms
10.1 Introduction
10.2 CAD Systems
10.3 Switch-Level Simulation
10.4 Layout Synthesis
10.5 Layout Analysis
10.6 Timing Analysis and Optimization
10.7 Logic Synthesis
10.8 Test Generation
10.9 Sequential Machine Optimizations
10.10 Scheduling and Binding
10.11 Hardware/Software Co-Design
10.12 References
10.13 Problems
A Chip Designer's Lexicon
B Chip Design Projects
B.1 Class Project Ideas
B.2 Project Proposal and Specification
B.3 Design Plan
B.4 Design Checkpoints and Specification
C Kitchen Timer Model
C.1 Hardware Modeling in C
Index
Preface to the Second Edition
Preface
1 Digital Systems and VLSI
1.1 Why Design Integrated Circuits?
1.2 Integrated Circuit Manufacturing
1.3 CMOS Technology
1.4 Integrated Circuit Design Techniques
1.5 A Look into the Future
1.6 Summary
1.7 References
1.8 Problems
2 Transistors and Layout
2.1 Introduction
2.2 Fabrication Processes
2.3 Transistors
2.4 Wires and Vias
2.5 Design Rules
2.6 Layout Design and Tools
2.7 References
2.8 Problems
3 Logic Gates
3.1 Introduction
3.2 Combinational Logic Functions
3.3 Static Complementary Gates
3.4 Switch Logic
3.5 Alternative Gate Circuits
3.6 Low-Power Gates
3.7 Delay Through Resistive Interconnect
3.8 Delay Through Inductive Interconnect
3.9 References
3.10 Problems
4 Combinational Logic Networks
4.1 Introduction
4.2 Standard Cell-Based Layout
4.3 Simulation
4.4 Combinational Network Delay
4.5 Logic and Interconnect Design
4.6 Pwer Optimization
4.7 Switch Logic Networks
4.8 Combinational Logic Testing
4.9 References
4.10 Problems
5 Seqential Machines
5.1 Introduction
5.2 Latches and Flip-Flops
5.3 Sequential Systems and Clocking Disciplines
5.4 Sequential System Design
5.5 Power Optimaization
5.6 Design Validation
5.7 Sequential Testing
5.8 References
5.9 Problems
6 Subsystem Design
6.1 Introduction
6.2 Subsystem Design Principles
6.3 Combinational Shifers
6.4 Adders
6.5 ALUs
6.6 Multipliers
6.7 High-Density Memory
6.8 Field-Programmable Gate Arrays
6.9 Programmable Logic Arrays
6.10 Refernces
6.11 Problems
7 Floorplanning
7.1 Introduction
7.2 Floorplanning Methods
7.3 Off-Chip Connections
7.4 References
7.5 Problems
8 Architecture Design
8.1 Introduction
8.2 Hardware Description Languages
8.3 Register-Transfer Design
8.4 High-Level Synchesis
8.5 Architectures for Low Power
8.6 Systems-on-Chips and Embedded CPUs
8.7 Architecture Testing
8.8 References
8.9 Problems
9 Chip Design
9.1 Introduction
9.2 Design Methodologies
9.3 Kitchen Timer Chip
9.4 Microprocessor Data Path
9.5 References
9.6 Problems
10 CAD Systems and Algorithms
10.1 Introduction
10.2 CAD Systems
10.3 Switch-Level Simulation
10.4 Layout Synthesis
10.5 Layout Analysis
10.6 Timing Analysis and Optimization
10.7 Logic Synthesis
10.8 Test Generation
10.9 Sequential Machine Optimizations
10.10 Scheduling and Binding
10.11 Hardware/Software Co-Design
10.12 References
10.13 Problems
A Chip Designer's Lexicon
B Chip Design Projects
B.1 Class Project Ideas
B.2 Project Proposal and Specification
B.3 Design Plan
B.4 Design Checkpoints and Specification
C Kitchen Timer Model
C.1 Hardware Modeling in C
Index
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