Digital Design : Principles and Practices and Xilinx 4. 2i Student Package

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  • Edition: 3rd
  • Format: Package
  • Copyright: 2006-01-01
  • Publisher: Pearson College Div
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This book takes an authoritative introduction to basic principles of digital design and practical requirements in both board-level and VLSI systems. Digital Design covers the most widespread logic design practices while building a solid foundation of theoretical and engineering principles. This easy-to-follow book uses a practical writing style. Includes low voltage and LVCMOS/LVTTL. Coverage of Complex Programmable Logic Devices (CPLDs) and Field-Programmable Gate Arrays (FPGAs). Introduction of HDL-based digital design Covers VHDL as well as ABEL. Including simulation and synthesis.

Table of Contents

(NOTE: Most chapters conclude with References, Drill Problems, and Exercises.)
1. Introduction.

About Digital Design. Analog versus Digital. Digital Devices. Electronic Aspects of Digital Design. Software Aspects of Digital Design. Integrated Circuits. Programmable Logic Devices. Application-Specific ICs. Printed-Circuit Boards. Digital-Design Levels. The Name of the Game. Going Forward.

2. Number Systems and Codes.
Positional Number Systems. Octal and Hexadecimal Numbers. General Positional-Number-System Conversions. Addition and Subtraction of Nondecimal Numbers. Representation of Negative Numbers. Two's-Complement Addition and Subtraction. Ones'-Complement Addition and Subtraction. Binary Multiplication. Binary Division. Binary Codes for Decimal Numbers. Gray Code. Character Codes. Codes for Actions, Conditions, and States. n-Cubes and Distance. Codes for Detecting and Correcting Errors. Codes for Serial Data Transmission and Storage.

3. Digital Circuits.
Logic Signals and Gates. Logic Families. CMOS Logic. Electrical Behavior of CMOS Circuits. CMOS Steady-State Electrical Behavior. CMOS Dynamic Electrical Behavior. Other CMOS Input and Output Structures. CMOS Logic Families. Bipolar Logic. Transistor-Transistor Logic. TTL Families. CMOS/TTL Interfacing. Low-Voltage CMOS Logic and Interfacing. Emitter-Coupled Logic.

4. Combinational Logic Design Principles.
Switching Algebra. Combinational-Circuit Analysis. Combinational- Circuit Synthesis. Programmed Minimization Methods. Timing Hazards. The ABEL Hardware Description Language. The VHDL Hardware Description Language.

5. Combinational Logic Design Practices.
Documentation Standards. Circuit Timing. Combinational PLDs. Decoders. Encoders. Three-State Devices. Multiplexers. Exclusive-OR Gates and Parity Circuits. Comparators. Adders, Subtractors, and ALUs. Combinational Multipliers.

6. Combinational-Circuit Design Examples.
Building-Block Design Examples. Design Examples Using ABEL and PLDs. Design Examples Using VHDL.

7. Sequential Logic Design Principles.
Bistable Elements. Latches and Flip-Flops. Clocked Synchronous State-Machine Analysis. Clocked Synchronous State-Machine Design. Designing State Machines Using State Diagrams. State-Machine Synthesis Using Transition Lists. Another State-Machine Design Example. Decomposing State Machines. Feedback Sequential Circuits. Feedback Sequential-Circuit Design. ABEL Sequential-Circuit Design Features. VHDL Sequential-Circuit Design Features.

8. Sequential Logic Design Practices.
Sequential-Circuit Documentation Standards. Latches and Flip-Flops. Sequential PLDs. Counters. Shift Registers. Iterative versus Sequential Circuits. Synchronous Design Methodology. Impediments to Synchronous Design. Synchronizer Failure and Metastability.

9. Sequential-Circuit Design Examples.
Design Examples Using ABEL and PLDs. Design Examples Using VHDL.

10. Memory, CPLDs, and FPGAs.
Read-Only Memory. Read/Write Memory. Static RAM. Dynamic RAM. Complex Programmable Logic Devices. Field-Programmable Gate Arrays.

11. Additional Real-World Topics.
Computer-Aided Design Tools. Design for Testability. Estimating Digital System Reliability. Transmission Lines, Reflections, and Termination.


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