Logic and Computer Design Fundamentals, Global Edition, 5th edition

Published by Pearson (September 12, 2016) © 2017

  • M Morris R. Mano
  • Charles R. Kime
  • Tom Martin
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For courses in Logic and Computer design.

Understanding Logic and Computer Design for All Audiences

Logic and Computer Design Fundamentals is a thoroughly up-to-date text that makes logic design, digital system design, and computer design available to students of all levels. The 5th Edition brings this widely recognised source to modern standards by ensuring that all information is relevant and contemporary. The material focuses on industry trends and successfully bridges the gap between the much higher levels of abstraction students in the field must work with today than in the past.

Broadly covering logic and computer design, Logic and Computer Design Fundamentals is a flexibly organised source material that allows instructors to tailor its use to a wide range of student audiences.

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  • 1. Digital Systems and Information
  • 1-1 Information Representation
  • 1-2 Abstraction Layers in Computer Systems Design
  • 1-3 Number Systems
  • 1-4 Arithmetic Operations
  • 1-5 Decimal Codes
  • 1-6 Alphanumeric Codes
  • 1-7 Gray Codes
  • 1-8 Chapter Summary
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  • 2. Combinational Logic Circuits
  • 2-1 Binary Logic and Gates
  • 2-2 Boolean Algebra
  • 2-3 Standard Forms
  • 2-4 Two-Level Circuit Optimization
  • 2-5 Map Manipulation
  • 2-6 Exclusive-OR Operator and Gates
  • 2-7 Gate Propagation Delay
  • 2-8 Hardware Description Languages Overview
  • 2-9 HDL Representations—VHDL
  • 2-10 HDL Represenations—Verilog
  • 2-11 Chapter Summary
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  • 3. Combinational Logic Design
  • 3-1 Beginning Hierarchical Design
  • 3-2 Technology Mapping
  • 3-3 Combinational Functional Blocks
  • 3-4 Rudimentary Logic Functions
  • 3-5 Decoding
  • 3-6 Encoding
  • 3-7 Selecting
  • 3-8 Iterative Combinational Circuits
  • 3-9 Binary Adders
  • 3-10 Binary Subtraction
  • 3-11 Binary Adder-Subtractors
  • 3-12 Other Arithmetic Functions
  • 3-13 Chapter Summary
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  • 4. Sequential Circuits
  • 4-1 Sequential Circuit Definitions
  • 4-2 Latches
  • 4-3 Flip-Flops
  • 4-4 Sequential Circuit Analysis
  • 4-5 Sequential Circuit Design
  • 4-6 State-machine Diagrams and Applications
  • 4-7 HDL Representation for Sequential Circuits—VHDL
  • 4-8 HDL Representation for Sequential Circuits—Verilog
  • 4-9 Flip-Flop Timing
  • 4-10 Sequential Circuit Timing
  • 4-11 Asynchronous Interactions
  • 4-12 Synchronization and Metastability
  • 4-13 Synchronous Circuit Pitfalls
  • 4-14 Chapter Summary
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  • 5. Digital Hardware Implementation
  • 5-1 The Design Space
  • 5-2 Programmable Implementation Technologies
  • 5-3 Chapter Summary
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  • 6. Registers and Register Transfers
  • 6-1 Registers and Load Enable
  • 6-2 Register Transfers
  • 6-3 Register Transfer Operations
  • 6-4 Register Transfers in VHDL and Verilog
  • 6-5 Microoperations
  • 6-6 Microoperations on a Single Register
  • 6-7 Register-Cell Design
  • 6-8 Multiplexer and Bus-Baed Transfers for Multiple Registers
  • 6-9 Serial Transfer and Microoperations
  • 6-10 Control of Register Transfers
  • 6-11 HDL Representation for Shift Registers and Counters—VHDL
  • 6-12 HDL Representation for Shift Registers and Counters—Verilog
  • 6-13 Microprogrammed Control
  • 6-15 Chapter Summary
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  • 7. Memory Basics
  • 7-1 Memory Definitions
  • 7-2 Random-Access Memory
  • 7-3 SRAM Integrated Circuits
  • 7-4 Array of SRAM ICs
  • 7-5 DRAM ICs
  • 7-6 DRAM Types
  • 7-7 Arrays of Dynamic RAM ICs
  • 7-8 Chapter Summary
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  • 8. Computer Design Basics
  • 8-1  Computer Design Basics
  • 8-2 Datapaths
  • 8-3 The Arithmetic/Logic Unit
  • 8-4 The Shifter </

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