Design a 2-bit comparator that compares the two numbers A=(A1A0)2 and B=(B1B0)2 in sign-magnitude representation and...

My question: what is the truth table for full-comparator?? Full question: Design a comparator circuit for...

My question: what is the truth table for full-comparator?? Full question: Design a comparator circuit for binary numbers using only NAND gates. It should take as input two numbers represented in standard binary, X and Y, and produce two outputs, G and L, which indicate that X is Greater than or Less than Y, respectively. If both outputs are zero, it indicates that the values are equal. Design a half-comparator, full-comparator, and a full four-bit comparator. With nothing more than...

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)

Design a sequential circuit that will negate four-bit two's complement integer. That is if, for example,if...

Design a sequential circuit that will negate four-bit two's complement integer. That is if, for example,if the input is 3 (in two's compliment representation) the output should be -3 (in two's complement notation). Start with the truth table, next write the formulas for each output in SOP form, next simplify formulas using Karnaugh maps and finally draw the simplified circuit. Thank you

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.

Use JK Flip Flop to design a 2-bit synchronous counter (up counter) that counts down as...

Use JK Flip Flop to design a 2-bit synchronous counter (up counter) that counts down as given: AB = 01, 11, 00, 10, and then again 01. Show the design steps (e.g state table, j and k inputs for k-maps etc) and draw the final circuit.

Design a Single cell 1 bit Carry propagate (or Ripple Carry Adder) full adder. a. Generate...

Design a Single cell 1 bit Carry propagate (or Ripple Carry Adder) full adder. a. Generate the truth table b. Using K-map or Boolean algebra, determine the logical expression for Carry out (C-out) and Sum (S) Outputs C. Draw the circuit diagram of the outputs in step b

Mr Ali is undergraduate student of engineering in a University. His registration ID is of six...

Mr Ali is undergraduate student of engineering in a University. His registration ID is of six hexadecimal numbers (171457)16. He needs to understand some useful operations in digital logic design so he represented each character of his registration ID as a four-bit number in a truth table of 16 input output relations. Then he assigned HIGH output to each four-bit number of his registration id and its succeeding number (all other outputs will then be zero). Your task is to...

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...

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...

Q.1.It is required to design an iterative combinational circuit that computes the equation Z=2*X-3, where X...

Q.1.It is required to design an iterative combinational circuit that computes the equation Z=2*X-3, where X is an n-bit signed number in 2’s complement representation. (Hint: -3 can be represented as -1+-1+-1 in 2’s complement representation, where -1 is represented as 111…..111). a)Determine the number of inputs and outputs needed for your 1-bit cell. Explain the meaning of values in the interface signals. b)Derive the truth table of your 1-bit cell. c) Derive minimized equations for your 1-bit using K-Map...