1. Introduction number systems and conversions. 2. Boolean algebra. 3. Boolean algebra (continued). 4. Applications of Boolean algebra minterm and maxterm expansions. 5. Karnaugh maps. 6. Quine-McCluskey method. 7. Multi-level gate circuits. 8. Combinational circuit design and simulation using gates. 9. Multiplexers, decoders, and programmable logic devices. 10. Introduction to VHDL. 11. Latches and flip-flops. 12. Registers and counters. 13. Analysis of clocked sequential circuits. 14. Derivation of state graphs and tables. 15. Reduction of state tables state assignment. 16. Sequentional circuit design. 17. VHDL for sequential logic. 18. Circuits for arithmetic operation. 19. State machine design with SM charts. 20. VHDL for digital system design.
Charles Roth is Professor Emeritus in Electrical and Computer Engineering at the University of Texas at Austin, where he taught Digital Design for more than four decades. He is the author of Fundamentals of Logic Design, which is in its sixth edition, and Digital Systems Design using VHDL, which is in its second edition. Larry L. Kinney is a Professor and Director of Undergraduate Studies at the University of Minnesota. He received his Ph.D in Electrical Engineering from the University of Iowa in 1968. His research concerns digital system and digital computer design, specifically concurrent error detection techniques, testing of logic and design, distributed computer systems, computer architectures, error detecting/correcting codes, and applications of microprocessors.
1. Introduction number systems and conversions. 2. Boolean algebra. 3. Boolean algebra (continued). 4. Applications of Boolean algebra minterm and maxterm expansions. 5. Karnaugh maps. 6. Quine-McCluskey method. 7. Multi-level gate circuits. 8. Combinational circuit design and simulation using gates. 9. Multiplexers, decoders, and programmable logic devices. 10. Introduction to VHDL. 11. Latches and flip-flops. 12. Registers and counters. 13. Analysis of clocked sequential circuits. 14. Derivation of state graphs and tables. 15. Reduction of state tables state assignment. 16. Sequentional circuit design. 17. VHDL for sequential logic. 18. Circuits for arithmetic operation. 19. State machine design with SM charts. 20. VHDL for digital system design.
Ask a Question About this Product More... |