Computer Logic Design Principles and Applications
An understanding of modern computer logic - incorporating core knowledge of number systems, number conversions, Boolean algebra, memories, and logic circuits - is fundamental to further study of computer architectures, system software, and computer networks. Computer Logic: Design Principles and App...
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Format: | eBook |
Language: | English |
Published: |
New York, NY
Springer New York
2002, 2002
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Edition: | 1st ed. 2002 |
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Online Access: | |
Collection: | Springer Book Archives -2004 - Collection details see MPG.ReNa |
Table of Contents:
- 1 Introduction
- 1.1 Prolog
- 1.2 Digital Concept
- 1.3 Number Systems
- 1.4 Number Conversions
- 1.5 Unsigned Integers Vs. Signed Integers
- 1.6 External Codes
- 1.7 Digitizing Concept
- 1.8 Summary Points
- Problems
- 2 Boolean Algebra
- 2.1 Boolean Constant Vs. Boolean Variable
- 2.2 Basic Laws
- 2.3 Basic Theorems
- 2.4 Other Logical Operators
- 2.5 Algebraic Simplifications
- 2.6 Karnaugh Maps
- 2.7 Summary Points
- Problems
- 3 Transistor Circuits
- 3.1 Introduction
- 3.2 Scale of Integration
- 3.3 Bipolar Transistors
- 3.4 Unipolar Transistors
- 3.5 Electronic Design Issues
- 3.6 Digital Waveforms
- 3.7 Summary Points
- Problems
- 4 Combinational Logic Circuits
- 4.1 Basic Logic Gates
- 4.2 Other Types of Logic Gates
- 4.3 Combinational Circuit Design Cases
- 4.4 Binary Adders
- 4.5 Carry Propagated Adder
- 4.6 Multiplication Tree
- 4.7 Programmable Logic Arrays
- 4.8 Memories
- 4.9 Summary Points
- Problems
- 5 Sequential Logic Circuits
- 5.1 Sequential Circuit Elements
- 5.2 RS Flip-Flops
- 5.3 Other Types of Flip-Flops
- 5.4 Sequential Circuit Design Cases
- 5.5 Sequencer t2167
- 5.7 Verilog
- 5.8 Summary Points
- Problems
- APPENDIX A Acronyms and Abbreviations
- APPENDIX B Logic Symbols and Equations
- References