Difference between revisions of "CSC270 Homework 4 2011"
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=Problem #1= | =Problem #1= | ||
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* Show the Karnaugh map and logic diagram that you use to find your answer. | * Show the Karnaugh map and logic diagram that you use to find your answer. | ||
* Similarly, use an 8-to-1 multipler and implement the same majority voter. | * Similarly, use an 8-to-1 multipler and implement the same majority voter. | ||
+ | * Similarly, use a 16-to-1 mux and implement the same majority voter. | ||
=Problem #2= | =Problem #2= | ||
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* How would we represent a 3-to-8 decoder circuit in Python? | * How would we represent a 3-to-8 decoder circuit in Python? | ||
* How about a 4-to-1 multiplexer (mux)? | * How about a 4-to-1 multiplexer (mux)? | ||
+ | * Prove that your three solutions for Problem 1 are correct by coding them in Python. Include the code and the output of the Python answer in your homework. | ||
=Problem #3= | =Problem #3= | ||
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<center>[[Image:flipflop.png]]</center> | <center>[[Image:flipflop.png]]</center> | ||
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− | * The SR flipflop is the basic element of sequencial circuit. Its main property is memory. It can be used to remember a bit, either 0, or 1. Storing a bit in the flipflop is performed by activating one of the two inputs. | + | * The SR flipflop is the basic element of sequencial circuit. Its main property is memory. It can be used to remember a bit, either 0, or 1. Storing a bit in the flipflop is performed by activating one of the two inputs. Being able to store only a 0 or only a 1 doesn't satisfy the true definition of a bit. |
* If we were to switch one of the NANDs in the circuit above for a NOR, would we still have a flipflop? Why or why not? | * If we were to switch one of the NANDs in the circuit above for a NOR, would we still have a flipflop? Why or why not? | ||
* If we were to replace both NANDs by two exclusive-ORs, would we still have a flipflop, i.e. a circuit that has memory, in which we can store either 1 or 0? | * If we were to replace both NANDs by two exclusive-ORs, would we still have a flipflop, i.e. a circuit that has memory, in which we can store either 1 or 0? | ||
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+ | =Optional and Extra-Credit= | ||
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+ | * Implement an RS flip-flop in Python. | ||
+ | * Demonstrate that your circuit works, and can be used when included in a larger circuit. | ||
=Submission= | =Submission= | ||
* Write your answers in a pdf called hw4.pdf and submit it to your 270b-xx account as usual. | * Write your answers in a pdf called hw4.pdf and submit it to your 270b-xx account as usual. | ||
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+ | [[Category:CSC270]][[Category:Homework]] |
Latest revision as of 11:07, 19 February 2011
--D. Thiebaut 10:42, 19 February 2011 (EST)
This assignment is about multiplexers and RS flipflops. You can work on this assignment in pairs if you wish. The due date is next Friday, at midnight.
Problem #1
- Implement a majority voter with a 4-to-1 multiplexer.
- Show the Karnaugh map and logic diagram that you use to find your answer.
- Similarly, use an 8-to-1 multipler and implement the same majority voter.
- Similarly, use a 16-to-1 mux and implement the same majority voter.
Problem #2
- We saw earlier that we can easily verify a design/circuit by generating its truth table with a Python program.
- How would we represent a 3-to-8 decoder circuit in Python?
- How about a 4-to-1 multiplexer (mux)?
- Prove that your three solutions for Problem 1 are correct by coding them in Python. Include the code and the output of the Python answer in your homework.
Problem #3
- The SR flipflop is the basic element of sequencial circuit. Its main property is memory. It can be used to remember a bit, either 0, or 1. Storing a bit in the flipflop is performed by activating one of the two inputs. Being able to store only a 0 or only a 1 doesn't satisfy the true definition of a bit.
- If we were to switch one of the NANDs in the circuit above for a NOR, would we still have a flipflop? Why or why not?
- If we were to replace both NANDs by two exclusive-ORs, would we still have a flipflop, i.e. a circuit that has memory, in which we can store either 1 or 0?
Optional and Extra-Credit
- Implement an RS flip-flop in Python.
- Demonstrate that your circuit works, and can be used when included in a larger circuit.
Submission
- Write your answers in a pdf called hw4.pdf and submit it to your 270b-xx account as usual.