Difference between revisions of "CSC270 Lab 5 2016"
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| − | * This part is optional, and has to be done only if you have time. | + | * This part is '''optional''', and has to be done only if you have time. |
* Implement this FMS shown below and observe its behavior. The Cmd signal should be connected to a switch. The Q output should be connected to an LED. The flip-flop shown is half of a 74LS74 integrated circuit. | * Implement this FMS shown below and observe its behavior. The Cmd signal should be connected to a switch. The Q output should be connected to an LED. The flip-flop shown is half of a 74LS74 integrated circuit. | ||
* Generate the sequencer's timing diagram from your observation of its behavior. | * Generate the sequencer's timing diagram from your observation of its behavior. | ||
Revision as of 18:36, 24 February 2016
--D. Thiebaut (talk) 18:12, 24 February 2016 (EST)
This lab presents Finite State Machines (FSM) and will you have explore a couple Moore machines.
Contents
Finite State Machine
- Word problem
- Implement a sequencer (FSM) which controls 3 lights: a green light, a yellow light, and a red light. The lights operate in a cycle, as follows:
- Green is ON for 1 second, and turns OFF. Then
- Yellow is ON for 1 second, then turns OFF. Then
- Red is ON for 2 seconds, and stays ON. Then
- Yellow turns ON for 1 second, and after that both Red and Yellow turn OFF.
Part 1
- Generate the timing diagram, and the state diagram.
- Find the number of flip-flops required to implement the FSM.
- Find the boolean functions that will generate the D inputs to the flip-flops, and the R, G, and Y outputs.
Part 2
- Verify that your design is correct by coding your equations in a Python simulator.
Part 3
- Wire up a circuit that implements this FSM. Demonstrate its correct behavior to your instructor.
Minimal and Controllable Moore FSM
- This part is optional, and has to be done only if you have time.
- Implement this FMS shown below and observe its behavior. The Cmd signal should be connected to a switch. The Q output should be connected to an LED. The flip-flop shown is half of a 74LS74 integrated circuit.
- Generate the sequencer's timing diagram from your observation of its behavior.
- Generate the state diagram of the sequencer.
