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Essential Electronic Design Automation (EDA) [Minkštas viršelis]

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  • Formatas: Paperback / softback, 256 pages, aukštis x plotis x storis: 233x177x15 mm, weight: 490 g
  • Išleidimo metai: 04-Dec-2003
  • Leidėjas: Prentice Hall
  • ISBN-10: 0131828290
  • ISBN-13: 9780131828292
Kitos knygos pagal šią temą:
Essential Electronic Design Automation (EDA)Didesnis paveikslėlis
  • Formatas: Paperback / softback, 256 pages, aukštis x plotis x storis: 233x177x15 mm, weight: 490 g
  • Išleidimo metai: 04-Dec-2003
  • Leidėjas: Prentice Hall
  • ISBN-10: 0131828290
  • ISBN-13: 9780131828292
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780131828292.html
Raktažodžiai:

Today, we take for granted many electronic products such as cellular phones, digital cameras, personal stereos, and printers. But none of these microchip-based electronic products would be possible without the essential (but mostly unknown) Electronic Design Automation (EDA) software tools engineers use to create them. Introduction to Electronic Design Automation gives an overview of the EDA business in the context of the electronic product and semiconductor industries it supports. It covers both the business aspects and the engineering issues addressed by EDA tools, described in layperson's terms.While addressing non-technical readers, the book can also help many technical employees needing the "big picture".

Daugiau informacijos

Today, we take for granted many electronic products such as cellular phones, digital cameras, personal stereos, and printers. But none of these microchip-based electronic products would be possible without the essential (but mostly unknown) Electronic Design Automation (EDA) software tools engineers use to create them. Introduction to Electronic Design Automation gives an overview of the EDA business in the context of the electronic product and semiconductor industries it supports. It covers both the business aspects and the engineering issues addressed by EDA tools, described in layperson's terms.While addressing non-technical readers, the book can also help many technical employees needing the "big picture".
Preface xv
Purpose of This Book
xv
Intended Audience
xvi
Organization
xvii
Acknowledgements
xviii
Chapter 1 Introduction to EDA 1(16)
Introduction
2(5)
Electronic Products
2(1)
Printed Circuit (PC) Boards
2(1)
Integrated Circuits
3(1)
CAD, CAM, CAE, and EDA
4(1)
Data, Signals, and Input/Output
5(1)
Electronic Product Development
5(2)
EDA Party-Users and Tools
7(8)
System Design
8(1)
Logic Design
9(1)
AS1C Design
10(1)
Physical Layout Design
11(4)
EDA Benefits
15(1)
Summary
15(2)
Chapter 2 The Business of EDA 17(22)
Introduction
18(2)
EDA User Return on Investment
20(2)
EDA Vendor Return On Investment
22(1)
EDA Tool Development Sources
23(2)
In-house/Out-source EDA Tool Development
24(1)
The Time-to-Market Competition
25(3)
EDA Business Models
28(4)
New EDA Tools
29(1)
Licensing Models
29(1)
Mergers and Acquisitions
30(1)
Application Service Provider Model
31(1)
Design Services Business
31(1)
EDA Industry Growth
32(2)
Relative Industry Sizes: EDA, 1C, Electronics
32(1)
Relative Risk Factor
33(1)
EDA People and Conferences
34(2)
People Opportunities
35(1)
Key Conferences
35(1)
Summary
36(1)
Quick Quiz
37(2)
Chapter 3 The User Perspective 39(24)
Introduction
40(1)
Four Key EDA User Decisions
40(7)
Organization
41(1)
Computer Network
42(2)
Security Requirements
44(1)
Computer Systems
45(1)
Engineering / Non-engineering Goals
46(1)
How to Buy EDA Tools-Five Key issues
47(6)
Cost/Performance
47(2)
Training and Support
49(1)
Make or Buy
50(1)
Compatibility
51(1)
Transition
51(2)
Standards Efforts-Who, What, and Why
53(4)
Design Flow Integration
53(2)
EDA Tool Interface Standards
55(1)
Frameworks
56(1)
Design Database Standards
56(1)
Standards Groups
57(1)
Personnel-The Key to EDA Support
57(1)
University Connections
58(2)
Summary
60(1)
Quick Quiz
60(3)
Chapter 4 Overview of EDA Tools and Design Concepts 63(20)
Introduction
64(1)
Tool improvements
64(1)
Major Classes of EDA Tools
65(5)
Electronic System-Level Design Tools
66(1)
Front-end Design Tools
67(1)
Back-end Design Tools
68(2)
Essential EDA Concepts
70(3)
Design Views
70(1)
Design Data
71(1)
Design Hierarchy
72(1)
Design-The Art of Trial and Error
73(3)
Design Styles
75(1)
Design Partitioning
76(1)
Architecture, Methodology, and Design Flow
76(3)
1C Architectures
76(2)
Design Methodology and Design Flow
78(1)
Tool Suites
79(1)
Summary
79(1)
Quick Quiz
80(3)
Chapter 5 Electronic System-Level Design Tools 83(16)
Introduction
84(1)
Specification Guidelines
84(1)
System-Level Design Tools
84(8)
High-Level Modeling
86(1)
System-Level Design Languages
86(1)
Design Space Exploration and Trade-offs
87(3)
Test Bench Creation
90(1)
Other System-Level Tools
91(1)
Hardware/Software Integration
92(2)
Approaches to Co-Design
94(1)
Hardware and Software Co-Design
94(1)
Embedded Systems
95(1)
Real Time
96(1)
Reliability
96(1)
Summary
96(1)
Quick Quiz
97(2)
Chapter 6 Front-end Design Tools 99(20)
Introduction
100(1)
Design Capture Tools
100(7)
Hardware Description Languages
103(3)
Specialized Design Tools
106(1)
Netlist Output
106(1)
Design Capture Checking Tools
106(1)
Verification Tools
107(4)
Design Verification
107(1)
Simulation
108(2)
Simulation Speed
110(1)
Formal Verification Tools
110(1)
Device and Circuit Simulators
110(1)
Timing Analysis Tools
111(2)
Dynamic Timing Analysis
111(1)
Static Timing Analysis
111(1)
Clocks
112(1)
Signal Timing
112(1)
Design for Test Tools
113(1)
Design for Test
113(1)
Boundary Scan
114(1)
Built-in Self Test
114(1)
Power-Related Tools
114(1)
Power Estimation Tools
115(1)
Low-Power Design Tools
115(1)
Synthesis Tools
115(1)
Summary
116(1)
Quick Quiz
117(2)
Chapter 7 Back-end Design Tools (Physical Design) 119(22)
Introduction
120(2)
Physical Layout Tools
122(5)
Floorplanning Tools
122(1)
Placement and Routing Tools
123(1)
Layout Styles
124(2)
Power Routing Tools
126(1)
Design Rule Check Tools
127(1)
Extraction and Timing Analysis Tools
128(1)
Signal Integrity Issues
129(3)
Signal Integrity
129(1)
Voltage Sensitivity
130(1)
Noise Margin
130(1)
Buffers
130(1)
Switching Noise
131(1)
Electromagnetic Interference
131(1)
Metal Migration
131(1)
Thermal Design Tools
132(1)
Manufacturing Preparation Steps
133(2)
Merging Operations
133(1)
Electrostatic Discharge Protection
133(1)
Mask-Making Preparations
133(1)
Diagnostic and Manufacturing Tests
134(1)
Automatic Test Pattern Generation
135(1)
Product Engineering Tools
135(1)
Porting Designs to New Processes
136(1)
Summary
137(2)
Quick Quiz
139(2)
Chapter 8 Trends 141(12)
EDA Design Environment Trends
142(2)
Integrated Design Suites
142(1)
Run-Time Control Tools
142(1)
Distributed Design
143(1)
System Design Links to Chip Design
143(1)
EDA Tool Trends
144(2)
Design Closure
144(1)
Formal Verification
145(1)
Design Repair
145(1)
Design for Test
145(1)
Design for Manufacture (DFM) Trends
146(2)
Design Redundancy
146(1)
Chip-to-Chip Differences
147(1)
Mask Enhancements
147(1)
System-on-chip and 1P Trends
148(1)
Semiconductor Trends
148(3)
Performance Design Issues
149(1)
Power and Thermal Design issues
150(1)
Physical Design Issues
150(1)
New Materials and Lithography
150(1)
Summary
151(2)
Appendix A Elementary Electricity 153(8)
Introduction
154(1)
Atoms and Electrons
154(1)
Conductors, Insulators, and Semiconductors
155(1)
Electrical Attributes
155(3)
Electrical Current
155(1)
Electrical Voltage
156(1)
Resistance
157(1)
Capacitance
157(1)
Inductance
157(1)
Direct and Alternating Current
157(1)
Other Electrical Effects
158(1)
Static Electricity
158(1)
Coupling
158(1)
Waves
158(1)
Electrical Components
158(3)
Semiconductor Devices
159(2)
Appendix B Semiconductor Manufacturing 161(6)
Introduction
162(1)
Manufacturing Process
162(3)
Masks and Feature Size
164
Manufacturing Test 1
64(101)
Packaging
165(1)
IC Testing
165(1)
Process Improvements
165(2)
Appendix C Signals to Software 167(8)
Introduction
168(1)
Transistor Circuits
168(1)
Analog and Digital
169(1)
Analog
169(1)
Digital
169(1)
Analog and Digital
169(1)
Memory
170(1)
Logic
170(2)
Signal Delay
172(1)
Computers
172(1)
Software
173(2)
Appendix D Metrics 175(6)
Introduction
176(5)
Small Numbers
176(1)
Large Numbers
176(5)
Appendix E References 181(8)
Conferences
182(1)
Organizations
183(2)
Standards Groups
185(1)
Publications
186(1)
EDA Internet Sites
187(1)
Universities
187(2)
Appendix F ICs, IP, and SoC 189(12)
The IC Industry
190(2)
Product Design
191(1)
Integrated Circuit Design
191(1)
Design Handoff
192(1)
Design Re-use and Intellectual Property
192(4)
Design Re-use
192(1)
Intellectual Property
193(1)
Types of 1P Blocks
193(1)
IP Vendor Business Models
194(1)
IP Re-use Issues
195(1)
System-on-Chip
196(3)
SoC Issues
198(1)
Platforms
199(1)
Summary
199(2)
Appendix G Glossary-Terms and Acronyms 201(28)
Index 229(7)
About the Author 236


MARK D. BIRNBAUM brings unique qualifications to this subject, having worked as an EDA user, manager, developer and tool vendor. Mr. Birnbaum's experience at nine major computer, semiconductor, EDA and research organizations spans the electronics design world from system products to IC chips. He has held senior positions in engineering management, consulting, R&D, product development, test, and marketing, led two standards groups, and taught microelectronics and EDA classes.