数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa pdf epub mobi txt 电子书 下载 2024

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数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa

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Hubert Kaeslin 著



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发表于2024-11-22

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出版社: 人民邮电出版社
ISBN:9787115223586
版次:1
商品编码:10064342
包装:平装
丛书名: 图灵原版电子与电气工程系列
外文名称:Digital Integrated Circuit Design From VLSI Architectures to CMOS Fabrication
开本:16开
出版时间:2010-

数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa epub 下载 mobi 下载 pdf 下载 txt 电子书 下载 2024

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数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa epub 下载 mobi 下载 pdf 下载 txt 电子书 下载 2024

数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa pdf epub mobi txt 电子书 下载



具体描述

编辑推荐

  今天,集成电路设计技术高速发展,在各个领域得到广泛应用,已经成为一种横跨多学科的技术。《数字集成电路设计:从VLSI体系结构到CMOS制造(英文版)》从架构与算法讲起,介绍了功能验证、VHDL建模、同步电路设计、异步数据获取、能耗与散热、信号完整性、物理设计、设计验证等必备技术,还讲解了VLSI经济与项目管理,并简单阐释了CMOS技术的基础知识,全面覆盖了数字集成电路的整个设计开发过程。
  作为一本教科书,《数字集成电路设计:从VLSI体系结构到CMOS制造(英文版)》向工程专业学生展示了数字VLSl设计之美。揭示了各种技术难点,使他们避免重复前人的错误;作为一本技术参考书,《数字集成电路设计:从VLSI体系结构到CMOS制造(英文版)》内容全面,丰富的表格、清单、电路图和个案研究能够帮助正在开发硬件电路的在职工程师更好地完成自己的设计。
  《数字集成电路设计:从VLSI体系结构到CMOS制造(英文版)》特点
  ·涵盖了数字VLSI设计的大部分问题
  ·从算法设计到晶圆生产,以自顶向下方式一一讲述
  ·重点阐释了流行的CMOS技术和静态电路
  ·全面覆盖数字VLSI设计者需要知道的半导体物理知识
  ·图文并茂,深度体现课堂教学和实际设计项目验证的思想

内容简介

  《数字集成电路设计:从VLSI体系结构到CMOS制造(英文版)》从架构与算法讲起,介绍了功能验证、VHDL建模、同步电路设计、异步数据获取、能耗与散热、信号完整性、物理设计、设计验证等必备技术,还讲解了VLSI经济运作与项目管理,并简单阐释了CMOS技术的基础知识,全面覆盖了数字集成电路的整个设计开发过程。
  《数字集成电路设计:从VLSI体系结构到CMOS制造(英文版)》既可作为高等院校微电子、电子技术等相关专业高年级师生和研究生的参考教材,也可供半导体行业工程师参考。

作者简介

  Hubert Kaeslin,1985年于瑞士苏黎世联邦理工学院获得博士学位,现为该校微电子设计中心的负责人,具有20多年教授VLSI的丰富经验。

内页插图

目录

Chapter 1 Introduction to Microelectronics 1
1.1 Economic impact 1
1.2 Concepts and terminology 4
1.2.1 The Guinness book of records point of view 4
1.2.2 The marketing point of view 5
1.2.3 The fabrication point of view 6
1.2.4 The design engineers point of view 10
1.2.5 The business point of view 17
1.3 Design flow in digital VLSI 18
1.3.1 The Y-chart, a map of digital electronic systems 18
1.3.2 Major stages in VLSI design 19
1.3.3 Cell libraries 28
1.3.4 Electronic design automation software 29
1.4 Field-programmable logic 30
1.4.1 Configuration technologies 30
1.4.2 Organization of hardware resources 32
1.4.3 Commercial products 35
1.5 Problems 37
1.6 Appendix I: A brief glossary of logic families 38
1.7 Appendix II: An illustrated glossary of circuit-related terms 40

Chapter 2 From Algorithms to Architectures 44
2.1 The goals of architecture design 44
2.1.1 Agenda 45
2.2 The architectural antipodes 45
2.2.1 What makes an algorithm suitable for a dedicated VLSI architecture? 50
2.2.2 There is plenty of land between the architectural antipodes 53
2.2.3 Assemblies of general-purpose and dedicated processing units 54
2.2.4 Coprocessors 55
2.2.5 Application-specific instruction set processors 55
2.2.6 Configurable computing 58
2.2.7 Extendable instruction set processors 59
2.2.8 Digest 60
2.3 A transform approach to VLSI architecture design 61
2.3.1 There is room for remodelling in the algorithmic domain  62
2.3.2 ...and there is room in the architectural domain 64
2.3.3 Systems engineers and VLSI designers must collaborate 64
2.3.4 A graph-based formalism for describing processing algorithms 65
2.3.5 The isomorphic architecture 66
2.3.6 Relative merits of architectural alternatives 67
2.3.7 Computation cycle versus clock period 69
2.4 Equivalence transforms for combinational computations 70
2.4.1 Common assumptions 71
2.4.2 Iterative decomposition 72
2.4.3 Pipelining 75
2.4.4 Replication 79
2.4.5 Time sharing 81
2.4.6 Associativity transform 86
2.4.7 Other algebraic transforms 87
2.4.8 Digest 87
2.5 Options for temporary storage of data 89
2.5.1 Data access patterns 89
2.5.2 Available memory configurations and area occupation 89
2.5.3 Storage capacities 90
2.5.4 Wiring and the costs of going off-chip 91
2.5.5 Latency and timing 91
2.5.6 Digest 92
2.6 Equivalence transforms for nonrecursive computations 93
2.6.1 Retiming 94
2.6.2 Pipelining revisited 95
2.6.3 Systolic conversion 97
2.6.4 Iterative decomposition and time-sharing revisited 98
2.6.5 Replication revisited 98
2.6.6 Digest 99
2.7 Equivalence transforms for recursive computations 99
2.7.1 The feedback bottleneck 100
2.7.2 Unfolding of first-order loops 101
2.7.3 Higher-order loops 103
2.7.4 Time-variant loops 105
2.7.5 Nonlinear or general loops 106
2.7.6 Pipeline interleaving is not an equivalence transform 109
2.7.7 Digest 111
2.8 Generalizations of the transform approach 112
2.8.1 Generalization to other levels of detail 112
2.8.2 Bit-serial architectures 113
2.8.3 Distributed arithmetic 116
2.8.4 Generalization to other algebraic structures 118
2.8.5 Digest 121
2.9 Conclusions 122
2.9.1 Summary 122
2.9.2 The grand architectural alternatives from an energy point of view 124
2.9.3 A guide to evaluating architectural alternatives 126
2.10 Problems 128
2.11 Appendix I: A brief glossary of algebraic structures 130
2.12 Appendix II: Area and delay figures of VLSI subfunctions 133

Chapter 3 Functional Verification 136
3.1 How to establish valid functional specifications 137
3.1.1 Formal specification 138
3.1.2 Rapid prototyping 138
3.2 Developing an adequate simulation strategy 139
3.2.1 What does it take to uncover a design flaw during simulation? 139
3.2.2 Stimulation and response checking must occur automatically 140
3.2.3 Exhaustive verification remains an elusive goal 142
3.2.4 All partial verification techniques have their pitfalls 143
3.2.5 Collecting test cases from multiple sources helps 150
3.2.6 Assertion-based verification helps 150
3.2.7 Separating test development from circuit design helps 151
3.2.8 Virtual prototypes help to generate expected responses 153
3.3 Reusing the same functional gauge throughout the entire design cycle 153
3.3.1 Alternative ways to handle stimuli and expected responses 155
3.3.2 Modular testbench design 156
3.3.3 A well-defined schedule for stimuli and responses 156
3.3.4 Trimming run times by skipping redundant simulation sequences 159
3.3.5 Abstracting to higher-level transactions on higher-level data 160
3.3.6 Absorbing latency variations across multiple circuit models 164
3.4 Conclusions 166
3.5 Problems 168
3.6 Appendix I: Formal approaches to functional verification 170
3.7 Appendix II: Deriving a coherent schedule for simulation and test 171

Chapter 4 Modelling Hardware with VHDL 175
4.1 Motivation 175
4.1.1 Why hardware synthesis? 175
4.1.2 What are the alternatives to VHDL? 176
4.1.3 What are the origins and aspirations of the IEEE 1076 standard? 176
4.1.4 Why bother learning hardware description languages? 179
4.1.5 Agenda 180
4.2 Key concepts and constructs of VHDL 180
4.2.1 Circuit hierarchy and connectivity 181
4.2.2 Concurrent processes and process interaction 185
4.2.3 A discrete replacement for electrical signals 192
4.2.4 An event-based concept of time for governing simulation 200
4.2.5 Facilities for model parametrization 211
4.2.6 Concepts borrowed from programming languages 216
4.3 Putting VHDL to service for hardware synthesis 223
4.3.1 Synthesis overview 223
4.3.2 Data types 224
4.3.3 Registers, finite state machines, and other sequential subcircuits 225
4.3.4 RAMs, ROMs, and other macrocells 231
4.3.5 Circuits that must be controlled at the netlist level 233
4.3.6 Timing constraints 234
4.3.7 Limitations and caveats for synthesis 238
4.3.8 How to establish a register transfer-level model step by step 238
4.4 Putting VHDL to service for hardware simulation 242
4.4.1 Ingredients of digital simulation 242
4.4.2 Anatomy of a generic testbench 242
4.4.3 Adapting to a design problem at hand 245
4.4.4 The VITAL modelling standard IEEE 1076.4 245
4.5 Conclusions 247
4.6 Problems 248
4.7 Appendix I: Books and Web Pages on VHDL 250
4.8 Appendix II: Related extensions and standards 251
4.8.1 Protected shared variables IEEE 1076a 251
4.8.2 The analog and mixed-signal extension IEEE 1076.1 252
4.8.3 Mathematical packages for real and complex numbers IEEE 1076.2 253
4.8.4 The arithmetic packages IEEE 1076.3 254
4.8.5 A language subset earmarked for synthesis IEEE 1076.6 254
4.8.6 The standard delay format (SDF) IEEE 1497 254
4.8.7 A handy compilation of type conversion functions 255
4.9 Appendix III: Examples of VHDL models 256
4.9.1 Combinational circuit models 256
4.9.2 Mealy, Moore, and Medvedev machines 261
4.9.3 State reduction and state encoding 268
4.9.4 Simulation testbenches 270
4.9.5 Working with VHDL tools from different vendors 285

Chapter 5 The Case for Synchronous Design 286
5.1 Introduction 286
5.2 The grand alternatives for regulating state changes 287
5.2.1 Synchronous clocking 287
5.2.2 Asynchronous clocking 288
5.2.3 Self-timed clocking 288
5.3 Why a rigorous approach to clocking is essential in VLSI 290
5.3.1 The perils of hazards 290
5.3.2 The pros and cons of synchronous clocking 291
5.3.3 数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa 电子书 下载 mobi epub pdf txt

数字集成电路设计:从VLSI体系结构到CMOS制造(英文版) [Digital Integrated Circuit Design From VLSI Architectures to CMOS Fa pdf epub mobi txt 电子书 下载
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