The circuit for output of 8 bit input A and B where A>B is little complex and large but it is just the large version of 2 bit input X and Y.
2. Build an 8-bit comparator that compares unsigned numbers A = a7 ao and B =...
#5 Design a magnitude comparator that compares two 2-bit numbers, A and B. The system has three outputs that indicate whether A>B, A=B, or A <B. Draw your design with only XNOR, AND, and OR gates. 15
[Paperl (10 pts.) Design a circuit that takes in four 4-bit unsigned numbers, A (A3..Ao), B (B3..Bo), C (C3-C), and D (D3..Do) and produces the 6-bit unsigned sum of those numbers. You should use three 4-bit adder blocks (74LS283's), and a minimal number of full adders or half adder build blocks. You should organize your adder circuits to perform as many additions in parallel (at the same time) as possible. Getting started: Write out the columns of addition and see...
Design a combinational circuit which compares two 4-bit unsigned numbers A and B. The circuit should have one output X such that X = 1 whenever A>B and X = 0 whenever A?B. You may use any MSI modules as well as any other gates.
To compare the two binary numbers, first the most significant bits (MSBs) are compared. If the MSBs are equal, then the next significant bits are compared. However, if the MSBs are not equal, then either A is greater than or less than B hence further comparison is not needed. For example, when comparing two 2-bit numbers given by A A1A2 and B-B,B2. If Al B1, then A > B if A1 = 1, B1 = 0 or A < B...
Design a combinational circuit that compares two 4-bit unsigned numbers A and B to see whether B is greater than 2A. The circuit has one output X, so that:X = 1 if 2A < B, andX = 0 if 2A >= B.Please de descriptive and detailed in drawing.The book we are using in class is this: http://www.cramster.com/logic-and-computer-design-fundamentals-4th-solutions-3631 and we are on chapter 4.
Design a combinational circuit that compares two 4-bit unsigned numbers A and B to see whether A is greater than B. The circuit has one output X, so that X = 0 if A ≤ B and X = 1 if A > B.
2d) (10 pts) Design a 2-bit ALU using a 2-bit adder and multiplexors (muxes) for the following operation table W X ALU operation 0 0 A +2 0 1 A & B (bit-wise) 1 0 B >> 1 (filled with 0) A-B Note: To make a connection, instead of drawing a line to make a connection, write a signal at each mux input using al, a, b1, b0, 0, or 1 and/or logic gates if needed. а0 b1 bo si...
Combinational logic: a) Design a circuit to compare two numbers each is 1-bit: A, B. With 3 outputs X for A-B ,Y for A<B, Z for A B b) Use the previous output (or only one of them) as selection lines for a multiplexer to give the larger number to the output of the multiplexer.
A Y = A ® B 1 1 1 1 1 Apply the idea of the truth table above and design a 3-bit comparator using XOR or XNOR gates of your choice. The design should be able to determine the equality between two 3-bit words. An LED should be turned ON only when every bit in "Word A" matches every corresponding bit in "Word B". Otherwise, the LED has to be OFF Hint for I/O port Definitions: Port Name Direction...
The beginning of a truth table for comparing two unsigned 2-bit operands is given below. The two unsigned 2-bit operands are Ai Ao and Bi Bo. There are 3 outputs, defined as follows: G= 1 if A >B, G= 0 otherwise. E= 1 if A =B, E = 0 otherwise, and L = 1 if A<B, L = 0 otherwise. Complete the truth table for use in the rest of the problem below: E L Ai A, B1 Bo 0...