Fundamentals of digital and computer design with VHDL / Richard S. Sandige, Michael L. Sandige.
By: Sandige, Richard S.
Contributor(s): Sandige, Michael L.
New York : McGraw Hill, ©2012Description: xx, 716 p. : ill. ; 25 cm.ISBN: 9781259007552; 9780073380698 (alk. paper); 0073380695 (alk. paper).Subject(s): Digital electronics | Electronic digital computers -- Design and construction -- Data processing | VHDL (Computer hardware description language)DDC classification: 621.392/Sa56 Other classification: CCS| Item type | Current location | Collection | Call number | Status | Date due | Barcode |
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Books
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College Library General Circulation Section | GC | CCS 621.392/Sa56 (Browse shelf) | Available | 79713 |
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| CCS 005.133/V75 C programming for the absolute beginner / | CCS 005.43/F67 Understanding operating systems / | CCS 006.686/B51 Sams teach yourself Adobe Photoshop CS4 in 24 hours / | CCS 621.392/Sa56 Fundamentals of digital and computer design with VHDL / | CCS 621.395/R74 Logic design fundamentals | CCS 651.9610285/C81 Getting started in the computerized medical office : | CCS 652.8/C88 Cryptography, automata and learning theory/ |
Includes index.
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
Intended for an introductory digital design course for students at the freshman level, this title is also suitable for an introductory computer design course with assembly language programming for students at the sophomore level.
College of Engineering and Computer Studies
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