Overview

This text is intended for an introductory digital design course for students at the freshman level; it also is intended for an introductory computer design course with assembly language programming for students at the sophomore level. This text uses a spiral teaching approach by introducing a design problem and then, in the same chapter or a later chapter, either (1) reemphasizing the same concepts when a different design is presented, or (2) working the same problem using a different technique. This is done to increase the likelihood of retention.

Full Product Details

Author:   Richard Sandige ,  Michael Sandige
Publisher:   McGraw-Hill Education - Europe
Imprint:   McGraw Hill Higher Education
Dimensions:   Width: 20.60cm , Height: 3.30cm , Length: 26.40cm
Weight:   1.501kg
ISBN:  

9780073380698

ISBN 10:   0073380695
Pages:   736
Publication Date:   16 October 2011
Audience:   College/higher education ,  Undergraduate
Format:   Hardback
Publisher's Status:   Out of Print
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

Chapter 1: Boolean Algebra, Boolean Functions, VHDL, and Gates Chapter 2: Number Conversions, Codes, and Function Minimization Chapter 3: Introduction to Logic Circuit Analysis and Design Chapter 4: Combinational Logic Circuit Design with VHDL Chapter 5: Bistable Memory Device Design with VHDL Chapter 6: Simple Finite State Machine Design with VHDL Chapter 7: Computer Circuits Chapter 8: Circuit Implementation Techniques Chapter 9: Complex Finite State Machine Design with VHDL Chapter 10: Basic Computer Architectures Chapter 11: Assembly Language Programming for VBC1 Chapter 12: Designing Input/Output Circuits Chapter 13: Designing Instruction Memory, Loading Program Counter, and Debounced Circuit Chapter 14: Designing Multiplexed Display Systems Chapter 15: Designing Instruction Decoders Chapter 16: Designing Arithmetic Logic Units Chapter 17: Completing the Design for VBC1 Chapter 18: Assembly Language Programming for VBC1-E Chapter 19: Designing Input/Output Circuits for VBC1-E Chapter 20: Designing the Data Memory Circuit for VBC1-E Chapter 21: Designing the Arithmetic, Logic, Shift, Rotate, and Unconditional Jump Circuits for VBC1-E Chapter 22: Designing a Circuit to Prevent Program Execution During Manual Loading for VBC1-E Chapter 23: Designing Extented Instruction Memory for VBC1-E Chapter 24: Designing the Software Interrupt Circuits for VBC1-E Chapter 25: Completing the Design for VBC1-E Appendices

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