design a 4 bit comparator that compares two numbers of 4 bits. the output should be...
design a 4 bit comparator that compares two numbers of 4 bits. the output should be < > or =. however you're only limited to using multiplexers or full adders. any help on how to draw this will be appreciated
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design a 4 bit comparator that compares two numbers of
4 bits. the output should be...
design a 4 bit comparator that compares two numbers of 4 bits. the output should be < > or =. however you're only limited to using multiplexers or full adders. any help on how to draw this w...
design a 4 bit comparator that compares two numbers of 4 bits. the output should be < > or =. however you're only limited to using multiplexers or full adders. any help on how to draw this will be appreciated
#5 Design a magnitude comparator that compares two 2-bit numbers, A and B. The system has...
#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
Design a combinational circuit which compares two 4-bit unsigned numbers A and B. The circuit should...
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 MS...
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 and build a 4 bit binary multiplier that multiplies two 4 bit unsigned positive numbers...
design and build a 4 bit binary multiplier that multiplies two 4 bit unsigned positive numbers to generate a 8 bit unsigned positive number. using full adders. do not use 4 bit multiplier chip. use truth table, karnaugh map and simplified output expression of the circuit.
You are to design a circuit that calculates the Hamming distance between two 5-bit numbers. It...
You are to design a circuit that calculates the Hamming distance between two 5-bit numbers. It takes two 5-bit binary numbers A4 A3 A2 A1 A0 and B4 B3B 2B1 B0 as inputs and returns the number of bits that are different between the two numbers as the 3-bit binary output O2 O1 O0. For example: *If the two input numbers were 10111 and 00001 then the output would be 011 as there are 3 bits different between them. *If...
Design a combinational circuit that compares two 4-bit unsigned numbers A and 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.
For number 2 you can use exclusive-OR gates, but do not use multiplexers. 1. Design a...
For number 2 you can use
exclusive-OR gates, but do not use multiplexers.
1. Design a 4-bit adder/subtractor using only full adders and EXCLUSIVE- OR gates. Do not use any multiplexers. 2. Design a combinational circuit using a minimum number of Full adders, and logic gates which will perform A plus B or minus B (A and B are signed numbers), depending on a mode select input, M. If M=0, addition is carried out; if M1, subtraction is carried out....
2. Build an 8-bit comparator that compares unsigned numbers A = a7 ao and B =...
2. Build an 8-bit comparator that compares unsigned numbers A = a7 ao and B = b1" . bo and outputs 1 if A > B . First build a smaller unit (using K-map) with logic gates that compares two bit numbers X=x1x0 and Y =y,yo. Then, use sufficient number of these elements with required additional gates to build the final circuit.
4. Design a 4-bit Adder / Subtractor. Follow the steps given below. (a) Write the VHDL...
4. Design a 4-bit Adder / Subtractor. Follow the steps given below. (a) Write the VHDL code for a 1-bit Full Adder. The VHDL code must include an entity and an architecture. (b) Draw the circuit diagram for a 4-bit Adder / Subtractor. The circuit diagram may include the following logic elements: 1-bit Full Adders (shown as a block with inputs and outputs) Any 2-input logic gates Multiplexers Do not draw the logic circuit for the 1-bit Full Adder.
#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
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...
For number 2 you can use
exclusive-OR gates, but do not use multiplexers.
1. Design a 4-bit adder/subtractor using only full adders and EXCLUSIVE- OR gates. Do not use any multiplexers. 2. Design a combinational circuit using a minimum number of Full adders, and logic gates which will perform A plus B or minus B (A and B are signed numbers), depending on a mode select input, M. If M=0, addition is carried out; if M1, subtraction is carried out....
2. Build an 8-bit comparator that compares unsigned numbers A = a7 ao and B = b1" . bo and outputs 1 if A > B . First build a smaller unit (using K-map) with logic gates that compares two bit numbers X=x1x0 and Y =y,yo. Then, use sufficient number of these elements with required additional gates to build the final circuit.
4. Design a 4-bit Adder / Subtractor. Follow the steps given below. (a) Write the VHDL code for a 1-bit Full Adder. The VHDL code must include an entity and an architecture. (b) Draw the circuit diagram for a 4-bit Adder / Subtractor. The circuit diagram may include the following logic elements: 1-bit Full Adders (shown as a block with inputs and outputs) Any 2-input logic gates Multiplexers Do not draw the logic circuit for the 1-bit Full Adder.
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