Resumen:
1. Boolean algebra, boolean functions, VHDL, and gates -- 2. Number conversions, codes and function minimization -- 3. Introduction to logic circuit analysis and design -- 4. Combinational logic circuit design with VHDL -- 5. Bistable memory device design with VHDL -- 6. Simple finite state machine design with VHDL -- 7. Computer circuits -- 8. Circuit implementation techniques -- 9. Complex finite state machine design with VHDL -- 10. Basic computer architectures -- 11. Assembly language programming for VBC1 -- 12. Designing input/output circuits -- 13. Designing instruction memory, loading program counter and debounced circuit -- 14. Designing multiplexed display systems -- 15. Designing instruction decoders -- 16. Designing arithmetic logic units -- 17. Completing the design for VBC1 -- 18. Assembly language programming for VBC1-E -- 19. Designing input/output circuits for BVC1-E -- 20. Designing the data memory circuit for VBC1-E -- 21. Designing the arithmetic, logic, shift, rotate and unconditional jump circuits for VBC1-E -- 22. Designing a circuit to prevent program execution during manual loading for VBC1-E -- 23. Designing extended instruction memory for VBC1-E -- 24. Designing the software interrupt circuits for VBC1-E -- 25. Completing the design for VBC1-E