Fundamentals of digital and computer design with VHDL / Richard S. Sandige, Michael L. Sandige.
Material type:
TextPublisher: New York : McGraw Hill, [2012]Copyright date: ©2012Description: xx, 716 pages : illustrations ; 27 cmContent type: - text
- unmediated
- volume
- 9780073380698 (alk. paper)
- 0073380695 (alk. paper)
- 621.392 23 S.R.F
- TK7868.D5 S253 2012
| Item type | Current library | Collection | Call number | Status | Date due | Barcode | |
|---|---|---|---|---|---|---|---|
Books
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Main library B3 | Faculty of Engineering & Technology (Electrical) | 621.392 S.R.F (Browse shelf(Opens below)) | Available | 00009175 |
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| 621.392 M.M.L Logic and computer design fundamentals / | 621.392 M.M.L Logic and computer design fundamentals / | 621.392 R. D. I Introduction to embedded systems : using ANSI C and the Arduino development environment / | 621.392 S.R.F Fundamentals of digital and computer design with VHDL / | 621.392 W.T.A. An introduction to the design of small-scale embedded systems / | 621.395 B.P.D A designer's guide to asynchronous VLSI / | 621.395 B.S.F. Fundamentals of digital logic with VHDL design / |
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
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