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基本説明
"Thank you very much for this wonderful textbook. It is the best textbook I have ever seen. The students like it so much." --Mahamed G. H. Omran, PhD, Assistant Professor, Gulf University for Science & Technology, Kuwait.
Unique with its RTL-early organization, Vahid's text supports instructors wishing to develop strong design skills in their students. The emergence of parallel processing, multicore processors and FPGAs are blurring the lines between hardware and software and fundamentally altering the way digital design and design logic should be taught.
Full Description
An eagerly anticipated, up-to-date guide to essential digitaldesign fundamentals Offering a modern, updated approach to digital design, thismuch-needed book reviews basic design fundamentals before divinginto specific details of design optimization. You begin with anexamination of the low-levels of design, noting a clear distinctionbetween design and gate-level minimization. The author thenprogresses to the key uses of digital design today, and how it isused to build high-performance alternatives to software. * Offers a fresh, up-to-date approach to digital design, whereasmost literature available is sorely outdated * Progresses though low levels of design, making a cleardistinction between design and gate-level minimization * Addresses the various uses of digital design today * Enables you to gain a clearer understanding of applying digitaldesign to your life With this book by your side, you'll gain a better understandingof how to apply the material in the book to real-worldscenarios.
Contents
Preface. To Students About To Study Digital Design. To Instructors of Digital Design. How to Use This Book. RTL-Focused Approach. Traditional Approach with Some Reordering. Traditional Approach. Acknowledgements. About the Cover. About the Author. Reviewers and Evaluators. CHAPTER 1 Introduction. 1.1 Digital Systems in the World Around Us. 1.2 The World of Digital Systems. 1.3 Implementing Digital Systems: Microprocessors versus DigitalCircuits. 1.4 About this Book. 1.5 Exercises. CHAPTER 2 Combinational Logic Design. 2.1 Introduction. 2.2 Switches. 2.3 The CMOS Transistor. 2.4 Boolean Logic Gates Building Blocks for DigitalCircuits. 2.5 Boolean Algebra. 2.6 Representations of Boolean Functions. 2.7 Combinational Logic Design Process. 2.8 More Gates. 2.9 Decoders and Muxes. 2.10 Additional Considerations. 2.11 Combinational Logic Optimizations and Tradeoffs (SeeSection 6.2). 2.12 Combinational Logic Description Using Hardware DescriptionLanguages (See Section 9.2). 2.13 Chapter Summary. 2.14 Exercises. CHAPTER 3 Sequential Logic Design: Controllers. 3.1 Introduction. 3.2 Storing One Bit Flip-Flops. 3.3 Finite-State Machines (FSMs). 3.4 Controller Design. 3.5 More on Flip-Flops and Controllers. 3.6 Sequential Logic Optimizations and Tradeoffs (See Section6.3). 3.7 Sequential Logic Description Using. 3.8 Product Profile Pacemaker. 3.9 Chapter Summary. 3.10 Exercises. CHAPTER 4 Datapath Components. 4.1 Introduction. 4.2 Registers. 4.3 Adders. 4.4 Comparators. 4.5 Multiplier Array-Style. 4.6 Subtractors and Signed Numbers. 4.7 Arithmetic-Logic Units ALUs. 4.8 Shifters. 4.9 Counters and Timers. 4.10 Register Files. 4.11 Datapath Component Tradeoffs (See Section 6.4). 4.12 Datapath Component Description Using Hardware DescriptionLanguages (See Section 9.4). 4.13 Product Profile: An Ultrasound Machine. 4.14 Chapter Summary. 4.15 Exercises. CHAPTER 5 Register-Transfer Level (RTL) Design. 5.1 Introduction. 5.2 High-Level State Machines. 5.3 RTL Design Process. 5.4 More RTL Design. 5.5 Determining Clock Frequency. 5.6 Behavioral-Level Design: C to Gates (Optional). 5.7 Memory Components. 5.8 Queues (FIFOs). 5.9 Multiple Processors. 5.10 Hierarchy A Key Design Concept. 5.11 RTL Design Optimizations and Tradeoffs (See Section6.5). 5.12 RTL Design Using Hardware Description Languages (SeeSection 9.5). 5.13 Product Profile: Cell Phone. 5.14 Chapter Summary. 5.15 Exercises. CHAPTER 6 Optimizations and Tradeoffs. 6.1 Introduction. 6.2 Combinational Logic Optimizations and Tradeoffs. 6.3 Sequential Logic Optimizations and Tradeoffs. 6.4 Datapath Component Tradeoffs. 6.5 RTL Design Optimizations and Tradeoffs. 6.6 More on Optimizations and Tradeoffs. 6.7 Product Profile: Digital Video Player/Recorder. 6.8 Chapter Summary. 6.9 Exercises. CHAPTER 7 Physical Implementation on ICs. 7.1 Introduction. 7.2 Manufactured IC Types. 7.3 Off-the-Shelf Programmable IC Type FPGA. 7.4 Other Off-the-Shelf IC Types. 7.5 IC Tradeoffs, Trends, and Comparisons. 7.6 Product Profile: Giant LED-Based Video. 7.7 Chapter Summary. 7.8 Exercises. CHAPTER 8 Programmable Processors. 8.1 Introduction. 8.2 Basic Architecture. 8.3 A Three-Instruction Programmable Processor. 8.4 A Six-Instruction Programmable Processor. 8.5 Example Assembly and Machine Programs 8.6 Further Extensions to the Programmable Processor. 8.7 Chapter Summary. 8.8 Exercises. CHAPTER 9 Hardware Description Languages. 9.1 Introduction. 9.2 Combinational Logic Description Using Hardware DescriptionLanguages. 9.3 Sequential Logic Description Using Hardware DescriptionLanguages. 9.4 Datapath Component Description. 9.5 RTL Design Using Hardware Description Languages. 9.6 Chapter Summary. 9.7 Exercises. APPENDIX A Boolean Algebras. A.1 Boolean Algebra. A.2 Switching Algebra. A.3 Important Theorems in Boolean Algebra. A.4 Other Examples of Boolean Algebras. A.5 Further Readings. APPENDIX B Additional Topics in Binary NumberSystems. B.1 Introduction. B.2 Real Number Representation. B.3 Fixed Point Arithmetic. B.4 Floating Point Representation. The IEEE 754-1985 Standard. B.5 Exercises. APPENDIX C Extended RTL Design Example. C.1 Introduction. C.2 Designing the Soda Dispenser Controller. C.3 Understanding the Behavior of the Soda Dispenser Controllerand Datapath.
