![1. Consider Figure 3.24 in the book. Change the code so we use 2. Show how we generate the equations for carryout and overflow from the values of X[n 3. reg [n-1:1] C 1]. Y[n-1]and S[n-1. Show details of your work. Why is it useful to use general parameters for n-bit adders? Design the circuit for BCD adder and test it for 3+5 and 9+6. Show details of your work. 4.](http://img.homeworklib.com/questions/58242540-c5a0-11ea-bc78-0b35be59bb4f.png?x-oss-process=image/resize,w_560)
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Please help me (digital logic)
1. Consider Figure 3.24 in the book. Change the code so...
number 4 and 5 please! PROBLEM STATEMENT A logic circuit is needed to add multi-bit binary...
number 4 and 5 please!
PROBLEM STATEMENT A logic circuit is needed to add multi-bit binary numbers. A 2-level circuit that would add two four-bit numbers would have 9 inputs and five outputs. Although a 2-level SOP or POS circuit theoretically would be very fast, it has numerous drawbacks that make it impractical. The design would be very complex in terms of the number of logic gates. The number of inputs for each gate would challenge target technologies. Testing would...
8/8pts Question 1 Using block diagram of 1-bit full adders create a 3-bit parallel adder (show...
8/8pts Question 1 Using block diagram of 1-bit full adders create a 3-bit parallel adder (show all the connections between the adders and proper outputs Logic Q1jpg 4/9 pts Question 2 Consider your design, if the inputs to be added were 100, and 111, what will be the resulting sum output (Express the resulting sum in binary and base 8 using the least number of bits)? What will be the carry output (Express it only in binary using the least...
Please show all work legibly and thanks so much for the explanation! Really really need help...
Please show all work legibly and thanks so much for
the explanation! Really really need help with part B), mostly.
Thank you!
____________________________________________________________________________
P5 (15 points): Consider the multiplication of Y - 3X. We want to create a FSM that will produce the bits of Y given X from least-significant bit to most-significant bit A: First, design a circuit that will multiply a four-bit X by 3 to produce Y You can use only Full Adders to implement this circuit,...
3. Digital circuits question. The figure below shows a 16-b carry-skip adder. It is composed of...
3. Digital circuits question.
The figure below shows a 16-b carry-skip adder. It is composed of 4 4-bit ripple carry adders and some extra logic to route the carry. Each 4bit ripple carry adder generates a group propagate signal. This is used to determine when the carry-in is going to be propagated all the way to the carry-out. When this is the case, addition is sped up by allowing the carry-in to skip the block and become the carry-in of...
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....
Need help with this digital logic problem please show work for all parts thanks [2] [20...
Need help with this digital logic problem please show work for
all parts thanks
[2] [20 points] A 2-bit Binary Comparator logic circuit receives 2-bit numbers, P = P.P, and Q = Q.Qo, and has three outputs Y2, Y1, and Yo: Output Y2 is 1 if and only if P < Q, otherwise it is 0. Output Y1 is 1 if and only if P > Q, otherwise it is 0. Output Yo is 1 if and only if P...
2. Design a digital logic circuit to convert part of the output code from part 1. to a binary signal. Use CMOS gates. (hint, the simpler you can get the logic, the less work you will have). You must...
2. Design a digital logic circuit to convert part of the output code from part 1. to a binary signal. Use CMOS gates. (hint, the simpler you can get the logic, the less work you will have). You must draw the circuit with transistors In Out DUIi 0111 011 0011 010 0001 001
2. Design a digital logic circuit to convert part of the output code from part 1. to a binary signal. Use CMOS gates. (hint, the simpler you...
ELEC3720-PROGRAMMABLE LOGIC DESIGN ASSIGNMENT 1. This assignment will give you an introductory experience on digital logic...
ELEC3720-PROGRAMMABLE LOGIC DESIGN ASSIGNMENT 1. This assignment will give you an introductory experience on digital logic design asing CAD tools while reviewing some concepts Cveeed in the peevions courses This is an individual assignment This assignaient due on the Friday of week-3, at 17:00 hrs Please submit your assignment source code皿blackboard. Go to the 'Assignment" folder and then follow the Assigmerat 1.1 Sumin Poetal link In addition, you are regaired to submit a short repoet which should include the following...
please help question 2 2. Design a half-adder with the constraint that you can only use...
please help question 2
2. Design a half-adder with the constraint that you can only use NAND and NOR gates. The circuit inputs are two bits I and y and the outputs are the sum bit s and carry bit c. Draw a circuit diagram and label each input and output. 3. The digital circuit below contains a latch and two flip-flops. Use the wave forms provided to find Qa. Qb, and Qe. Assume that all three states have initial...
task 1: In digital electronics and modern computer hardware, a flip-flop is sequential digital circuit used...
task 1: In digital electronics and modern computer hardware, a flip-flop is sequential digital circuit used as a basic memory element. It has two stable states and can be used to store state information. One of its states represents '1' while the other represents '0'. The most common types of flip-flops are SR-flip-flop, JK-flip-flop, and D flip-flop. When used in a finite-state machine, the output and next state depend not only on its current input, but also on its current...
number 4 and 5 please!
PROBLEM STATEMENT A logic circuit is needed to add multi-bit binary numbers. A 2-level circuit that would add two four-bit numbers would have 9 inputs and five outputs. Although a 2-level SOP or POS circuit theoretically would be very fast, it has numerous drawbacks that make it impractical. The design would be very complex in terms of the number of logic gates. The number of inputs for each gate would challenge target technologies. Testing would...
8/8pts Question 1 Using block diagram of 1-bit full adders create a 3-bit parallel adder (show all the connections between the adders and proper outputs Logic Q1jpg 4/9 pts Question 2 Consider your design, if the inputs to be added were 100, and 111, what will be the resulting sum output (Express the resulting sum in binary and base 8 using the least number of bits)? What will be the carry output (Express it only in binary using the least...
Please show all work legibly and thanks so much for
the explanation! Really really need help with part B), mostly.
Thank you!
____________________________________________________________________________
P5 (15 points): Consider the multiplication of Y - 3X. We want to create a FSM that will produce the bits of Y given X from least-significant bit to most-significant bit A: First, design a circuit that will multiply a four-bit X by 3 to produce Y You can use only Full Adders to implement this circuit,...
3. Digital circuits question.
The figure below shows a 16-b carry-skip adder. It is composed of 4 4-bit ripple carry adders and some extra logic to route the carry. Each 4bit ripple carry adder generates a group propagate signal. This is used to determine when the carry-in is going to be propagated all the way to the carry-out. When this is the case, addition is sped up by allowing the carry-in to skip the block and become the carry-in of...
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....
Need help with this digital logic problem please show work for
all parts thanks
[2] [20 points] A 2-bit Binary Comparator logic circuit receives 2-bit numbers, P = P.P, and Q = Q.Qo, and has three outputs Y2, Y1, and Yo: Output Y2 is 1 if and only if P < Q, otherwise it is 0. Output Y1 is 1 if and only if P > Q, otherwise it is 0. Output Yo is 1 if and only if P...
2. Design a digital logic circuit to convert part of the output code from part 1. to a binary signal. Use CMOS gates. (hint, the simpler you can get the logic, the less work you will have). You must draw the circuit with transistors In Out DUIi 0111 011 0011 010 0001 001
2. Design a digital logic circuit to convert part of the output code from part 1. to a binary signal. Use CMOS gates. (hint, the simpler you...
ELEC3720-PROGRAMMABLE LOGIC DESIGN ASSIGNMENT 1. This assignment will give you an introductory experience on digital logic design asing CAD tools while reviewing some concepts Cveeed in the peevions courses This is an individual assignment This assignaient due on the Friday of week-3, at 17:00 hrs Please submit your assignment source code皿blackboard. Go to the 'Assignment" folder and then follow the Assigmerat 1.1 Sumin Poetal link In addition, you are regaired to submit a short repoet which should include the following...
please help question 2
2. Design a half-adder with the constraint that you can only use NAND and NOR gates. The circuit inputs are two bits I and y and the outputs are the sum bit s and carry bit c. Draw a circuit diagram and label each input and output. 3. The digital circuit below contains a latch and two flip-flops. Use the wave forms provided to find Qa. Qb, and Qe. Assume that all three states have initial...
task 1: In digital electronics and modern computer hardware, a flip-flop is sequential digital circuit used as a basic memory element. It has two stable states and can be used to store state information. One of its states represents '1' while the other represents '0'. The most common types of flip-flops are SR-flip-flop, JK-flip-flop, and D flip-flop. When used in a finite-state machine, the output and next state depend not only on its current input, but also on its current...
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