Draw a circuit using only NAND, NOR, and NOT for the combination 0001 that gives you...

In addition to NAND and NOR, find four more two-input boolean functions that are each individually...

In addition to NAND and NOR, find four more two-input boolean functions that are each individually universal. Give a logic expression for each of your functions, using AND, OR, and NOT, and prove that each of these functions is individually universal, by showing for example that you can implement AND, OR, and NOT with your function. You may use the constant values zero and one as inputs to your universal functions to implement other functions. Name your functions f1, f2,...

Assume that you are asked to design a logic circuit with the following specifications, using K-map....

Assume that you are asked to design a logic circuit with the following specifications, using K-map. The circuit has two inputs X and Y and three outputs O0, O1 and O2. This circuit operates as follows: (1) the output (O0) will be high when X<Y only, (2) the output (O1) will be high when X>Y only, and (3) the output (O2) will be high when X=Y only. a. (3 points) Create the truth table for this logic circuit. b. (3...

Assume that you are asked to design a logic circuit with the following specifications, using K-map....

Assume that you are asked to design a logic circuit with the following specifications, using K-map. The circuit has two inputs X and Y and three outputs O0, O1 and O2. This circuit operates as follows: (1) the output (O0) will be high when XY only, and (3) the output (O2) will be high when X=Y only. a)Create the truth table for this logic circuit. b) Show the Karnaugh maps. c) Draw the schematic, using logic gates.

Design a counter which counts in the sequence that has been assigned to you. Use D...

Design a counter which counts in the sequence that has been assigned to you. Use D flip flops and NAND gates. Simulate your design using SimUaid. Submit the state table, D flip-flop input equations, and transition graph determined in Part 6. The D flip-flop equations can be derived using Karnaugh maps or using LogicAid by entering a state table with zero input variables. Sequence: 000,100,001,110,101,111,(repeat) 000,... Also, please answer the following questions: How can a D flip-flop be set to...

Sequence is 000,0110,111,100,101,001, (repeat)000,…

Sequence is 000,0110,111,100,101,001, (repeat)000,…· Design a counter that counts in the sequence assigned to you. Use D flip-flops, NAND gates, and inverters. Draw your circuit explicitly showing all connections to gate and flip-flop inputs.Explicitly means that you should draw in all wires, don’t just label the inputs and outputs. Show switches connected to thePreset and Clear inputs of the flip-flops. Use one switch for all clears and a separate switch for each preset.· Explain in detail how you can set...

Design a 4-bit adder-subtractor circuit using the 4-bit binary Full adders (74LS83) and any necessary additional...

Design a 4-bit adder-subtractor circuit using the 4-bit binary Full adders (74LS83) and any necessary additional logic gates. The circuit has a mode input bit, M, that controls its operation. Specifically, when M=0, the circuit becomes a 4-bit adder, and when M=1, the circuit becomes a 4-bit subtractor that performs the operation A plus the 2’s complement of B.Where A and B are two 4-bits binary numbers. That is, * When M=0, we perform A+B, and we assume that both...

Part 1: I need to design a circuit using only resistors and capacitors that will filter...

Part 1: I need to design a circuit using only resistors and capacitors that will filter out a signal above a specific frequency. In order to be deemed a success, the peak voltage across your capacitor must be equal to 20% of the peak voltage provided by the function generator at the frequency f_theory. Full credit on this lab requires that your percent error in Part 2 is less than 5%. f theory = 1699Hz Available values of resistance are...

Adder Start out by picking 2 positive six bit binary numbers that are less than 3210,...

Adder Start out by picking 2 positive six bit binary numbers that are less than 3210, written in 2's complement notation. The eventual goal is to add these two numbers. 1) Look at the LSB bit of the numbers, and using logic gates (NANDs, NORs, etc.) design a circuit that correctly gives the right output for any possible combination of bits in the LSB place. 2) Now look at the next column to the left (next to LSB). In this...

Can i get the answer to these questions in detail explaining how you go to the...

Can i get the answer to these questions in detail explaining how you go to the solution 1.Convert to/from Hex (0) 2.Octal Binary Unsigned/ 2’s complement 3.Understand how to shift and rotate. 4.Understand the relationship between shifting and multiplication/division 5.Be able to recognize and use the following gates: AND OR NOT NAND NOR XOR 6.Understand how a half adder works Given a logical statement ((A OR B) AND NOT(C OR A)) show the gates. 7.What is the difference between an...

Design a FSM for a Vending Machine In this task, you will design a FSM for...

Design a FSM for a Vending Machine In this task, you will design a FSM for a simple (albeit strange) vending machine of office supplies. The vending machine sells three possible items, each at a different cost: Item Cost Pencil 10 cents Eraser 20 cents Pen 30 cents The vending machines accepts nickels (worth 5 cents), dimes (worth 10 cents), and quarters (worth 25 cents). Physically, it is only possible to insert a single coin at a time. The vending...