Build
Conclusion
Conclusion:
1. The state machine design in this activity has four states and thus requires two state variables. If a design required eight states, how many state variables would be required? 4
2. What about sixteen states? 8
What is the relationship between the number of states and the number of state variables? It cuts it in half
3. If you simplified the logic expression for the three (or four) outputs correctly, the final expressions were not a function of the input EN. It will ALWAYS be the case that the outputs are not a function of the inputs. Why? Because EN simply tells the function to move to the next step
4. List three advantages of implementing sequential logic designs with programmable logic versus traditional discrete logic design (i.e., AOI, NAND, or NOR logic). requires less breadboarding, takes less time, more efficient
1. The state machine design in this activity has four states and thus requires two state variables. If a design required eight states, how many state variables would be required? 4
2. What about sixteen states? 8
What is the relationship between the number of states and the number of state variables? It cuts it in half
3. If you simplified the logic expression for the three (or four) outputs correctly, the final expressions were not a function of the input EN. It will ALWAYS be the case that the outputs are not a function of the inputs. Why? Because EN simply tells the function to move to the next step
4. List three advantages of implementing sequential logic designs with programmable logic versus traditional discrete logic design (i.e., AOI, NAND, or NOR logic). requires less breadboarding, takes less time, more efficient