Contemporary logic design
著者
書誌事項
Contemporary logic design
Pearson Education, 2005
2nd ed, Pearson international ed
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内容説明・目次
内容説明
BASIC APPROACH In the past ten years there has been a revolution in the practice of hardware design. Professionals now rely on CAD software, rapid prototyping, and programmable logic devices to streamline the design process. Contemporary Logic Design is the first text to address these changes -- and to offer a truly modern introduction to logic design. Throughout, the author complements his presentation of logic design theory with discussions of current design technologies. Approximately 60% of the book presents new material; the remainder has been re-organized and partially re-written to correspond to the organizational changes.
目次
1. Introduction 1.1 Dissecting the Title 1.2 A Brief History of Logic Design 1.3 Computation 1.4 Examples 2. Combinational Logic 2.1 Outputs as a Function of Inputs 2.2 Laws and Theorems of Boolean Logic 2.3 Realizing Boolean Formulas 2.4 Two-Level Logic 2.5 Motivation for Two-Level Simplification 2.6 Multi-level Logic 2.7 Motivation for Multi-Level Minimization 3. Working with Combinational Logic 3.1 Two-Level Simplification 3.2 Automating Two-level Simplification 3.3 Multi-level Simplification 3.4 Automating Multi-level Simplification 3.5 Time Response in Combinational Networks 3.6 Hardware Description Languages 4. Combinational Logic Technologies 4.1 History 4.2 Basic Logic Components 4.3 Two-Level and Multi-Level Logic 4.4 Non-gate Logic 5. Case Studies in Combinational Logic Design 5.1 Design Procedure 5.2 A Simple Process Line Control Problem 5.3 Telephone Keypad Decoder 5.4 Leap Year Calculation 5.5 Logic Function Unit 5.6 Adder Design 5.7 Arithmetic Logic Unit Design 5.8 Combinational Multiplier 6. Sequential Logic 6.1 Sequential Logic Elements 6.2 Timing Methodologies 6.3 Registers 7. Finite State Machines 7.1 Counters 7.2 The Concept of the State Machine 7.3 Basic Design Approach 7.4 Motivation for Optimization 8. Working with Finite State Machines 8.1 State Minimization/Reduction 8.2 State Assignment 8.3 Finite State Machine Partitioning 8.4 Hardware Description Languages 9. Sequential Logic Technologies 9.1 Basic Sequential Logic Components 9.2 FSM Design with Counters 9.3 FSM Design with Programmable Logic 9.4 FSM Design with More Sophisticated Programmable Logic 9.5 Case Study: Traffic Light Controller 10. Case Studies in Sequential Logic Design 10.1 A Finite String Recognizer 10.2 A Complex Counter 10.3 A Digital Combination Lock 10.4 A Memory Controller 10.5 A Sequential Multiplier 10.6 A Serial Line Transmitter/Receiver 11. Computer Organization 11.1 Structure of a Computer 11.2 Busing Strategies 11.3 Finite State Machines for Simple CPUs 12. Controller Implementation 12.1 Random Logic 12.2 Time State (Divide and Conquer) 12.3 Jump Counter 12.4 Branch Sequencers 12.5 Microprogramming Epilogue
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