Use 74HC85 comparators to compare the magnitude of two 16-bit numbers. Draw the schematic diagram of comparators with correct interconnections.
Use 74HC85 comparators to compare the magnitude of two 16-bit numbers. Draw the schematic diagram...
Design 2-bit comparator using 1-bit comparators. Draw the circuit using a block diagram for the unit comparator and any additional gates. Include logic such as: A=B when (A0=B0 && A1=B1) A>B when (A1>B1 or A1=B1 && A0>B0), etc.
Q2. Draw a schematic diagram for a 4-bit register using four D Flip-Flops and four 2-1 multiplexers. Draw a block around each one-bit register used in your design.
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...
Draw a block diagram/schematic of the entire accumulator- based processor system with the clock divider showing the connections between all four components (the 4-bit register, the 4-bit ALU, the seven-segment display, and the clock divider). You will implement this entire system on the FPGA board in lab task 5. Make this block diagram/ schematic large enough to add these additional details: i. Give each component a unique and meaningful name . İİ.Label each component's input/output ports with the appropriate names...
Using building blocks such as binary adders, comparators, multiplexers, decoders, encoders, and arbiters as well as logic gates, design an 8x2 popularity circuit – a circuit that accepts eight two-bit numbers and outputs the number of times each of the four numbers appears on the input.
#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
Draw the following schematic circuit diagram and label them accordingly: (a) Draw the schematic for a circuit in which a 10 V battery, a 100 resistor, and a 220 resistor are all in series with one another. Determine the voltage across each resistor and the current owing through each resistor. (b) Draw the schematic for a circuit in which a 10 V battery, a 100 resistor, and a 220 resistor are all in parallel with one another. Determine the voltage...
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.
Using CMOS logic draw a circuit that multiplies two 4 bit numbers into an 8 bit number (the product).
Design a circuit to add two 2-bit binary numbers and display the results of the addition as a 3-bit binary number, with the most significant bit be the carry out. To do this, you will use the four switches on your Breadboard Companion as your two 2-bit number inputs. Three of your LEDs will be used to represent the 3-bit output of your circuit. Complete a truth table for the expected output values on the lab data sheet attached. Use...