Design a circuit that can add three unsigned four-bit numbers. Use four-bit adders and any other...

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...

Design a combinational circuit that forms the 2-bit binary sum S1S0 of two 2-bit numbers X1X0...

Design a combinational circuit that forms the 2-bit binary sum S1S0 of two 2-bit numbers X1X0 and Y1Y0 and can produce a carry output C. Design the entire circuit with the help of three half adder circuit implementing each of the three outputs with XOR-AND and OR gates.

Q5) Design a magnitude comparator that takes two three bit unsigned numbers, A = (a2a1a0) and...

Q5) Design a magnitude comparator that takes two three bit unsigned numbers, A = (a2a1a0) and B = (b2b1b0), and outputs LE = 1 if A<=B, otherwise LE = 0. Give the Boolean expression for the circuit output g. Draw the circuit using only 3 4x1 MUXs.(16pt)

I have an 4-bit unsigned Binary adder that performs F=A+B with carry in and carry out,...

I have an 4-bit unsigned Binary adder that performs F=A+B with carry in and carry out, I have to draw the smallest circuit using the adder and whatever other combinational logic gates I need to perform the 4-bit function below on 2's complement numbers A and B F=A+B if ADD=1, F=A-B if ADD=0

Convert the decimal numbers 40 and 20 into 8-bit unsigned binary representation and add the two...

Convert the decimal numbers 40 and 20 into 8-bit unsigned binary representation and add the two numbers.

The software I am using Is Logisim. Design and build a circuit to add 2 2-bit...

The software I am using Is Logisim. Design and build a circuit to add 2 2-bit binary numbers. This means that you will have 4 input lines and 3 output lines. The three output lines are 2 bits for the sum and a carry out line. Use logisim to construct your circuit. Upload the .circ file to blackboard

Consider the following 12-bit numbers below. Assuming they are unsigned, add them to produce a 12-bit...

Consider the following 12-bit numbers below. Assuming they are unsigned, add them to produce a 12-bit sum the same way a computer would. Also, state whether or not an error results using the same method a computer would. 110010001001 011010001101

(2marks) Consider the following 12-bit numbers below. Assuming they are unsigned, add them to produce a...

(2marks) Consider the following 12-bit numbers below. Assuming they are unsigned, add them to produce a 12-bit sum the same way a computer would. Also, state whether or not an error results using the same method a computer would. 110010001001 011010001101 Repeat the addition and error detection from the previous question, but this time assuming that the numbers are in two’s complement representation. Also: without converting to decimal, but simply by intuition, i.e. looking at the three numbers and applying...

Use contraction beginning with a 4-bit adder-subtractor with carry in, to design a 4-bit circuit without...

Use contraction beginning with a 4-bit adder-subtractor with carry in, to design a 4-bit circuit without carry out that increments its input by 0010 for input S=0 and decrements its input by 0010 for input S=1. Perform the design by designing the distinct 1-bit full adder cells needed and indicating the type of cell used in each of the four bit positions.

VERILOG Design an Arithmetic Logic Unit (ALU) that can perform four-bit 1. Four-bit addition; 2. Four-bit...

VERILOG Design an Arithmetic Logic Unit (ALU) that can perform four-bit 1. Four-bit addition; 2. Four-bit subtraction; 3. Four-bit multiplication; 4. Four-bit comparator (that compares two binary numbers to check whether two numbers are equal, or one is less/greater than other). Write test benches and simulate each module/submodule. Hint: First make individual modules of the four-bit adder, four-bit subtractor, four-bit multiplier, four-bit comparator modules (make all these in same/one project) and then use a multiplexer to combine these modules to...